結果
問題 | No.1288 yuki collection |
ユーザー | LayCurse |
提出日時 | 2020-12-05 00:58:16 |
言語 | C++17 (gcc 12.3.0 + boost 1.83.0) |
結果 |
TLE
|
実行時間 | - |
コード長 | 12,183 bytes |
コンパイル時間 | 3,056 ms |
コンパイル使用メモリ | 220,572 KB |
実行使用メモリ | 9,344 KB |
最終ジャッジ日時 | 2024-09-15 09:36:03 |
合計ジャッジ時間 | 12,363 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
5,248 KB |
testcase_01 | AC | 2 ms
5,376 KB |
testcase_02 | AC | 2 ms
5,376 KB |
testcase_03 | AC | 2 ms
5,376 KB |
testcase_04 | AC | 2 ms
5,376 KB |
testcase_05 | AC | 2 ms
5,376 KB |
testcase_06 | AC | 2 ms
5,376 KB |
testcase_07 | AC | 2 ms
5,376 KB |
testcase_08 | AC | 2 ms
5,376 KB |
testcase_09 | AC | 2 ms
5,376 KB |
testcase_10 | AC | 2 ms
5,376 KB |
testcase_11 | AC | 2 ms
5,376 KB |
testcase_12 | AC | 2 ms
5,376 KB |
testcase_13 | AC | 146 ms
5,376 KB |
testcase_14 | AC | 143 ms
5,376 KB |
testcase_15 | AC | 115 ms
5,376 KB |
testcase_16 | AC | 116 ms
5,376 KB |
testcase_17 | AC | 148 ms
5,376 KB |
testcase_18 | AC | 149 ms
5,376 KB |
testcase_19 | AC | 148 ms
5,376 KB |
testcase_20 | AC | 149 ms
5,376 KB |
testcase_21 | AC | 135 ms
5,376 KB |
testcase_22 | AC | 136 ms
5,376 KB |
testcase_23 | AC | 137 ms
5,376 KB |
testcase_24 | AC | 151 ms
5,376 KB |
testcase_25 | AC | 147 ms
5,376 KB |
testcase_26 | AC | 148 ms
5,376 KB |
testcase_27 | AC | 64 ms
5,376 KB |
testcase_28 | AC | 75 ms
5,376 KB |
testcase_29 | AC | 63 ms
5,376 KB |
testcase_30 | AC | 6 ms
5,376 KB |
testcase_31 | AC | 8 ms
5,376 KB |
testcase_32 | AC | 9 ms
5,376 KB |
testcase_33 | AC | 50 ms
5,376 KB |
testcase_34 | AC | 150 ms
5,376 KB |
testcase_35 | TLE | - |
testcase_36 | -- | - |
testcase_37 | -- | - |
testcase_38 | -- | - |
testcase_39 | -- | - |
testcase_40 | -- | - |
testcase_41 | -- | - |
testcase_42 | -- | - |
ソースコード
#pragma GCC optimize ("Ofast") #include<bits/stdc++.h> using namespace std; void*wmem; char memarr[96000000]; template<class S, class T> inline S min_L(S a,T b){ return a<=b?a:b; } template<class S, class T> inline S max_L(S a,T b){ return a>=b?a:b; } template<class T> inline void walloc1d(T **arr, int x, void **mem = &wmem){ static int skip[16] = {0, 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1}; (*mem) = (void*)( ((char*)(*mem)) + skip[((unsigned long long)(*mem)) & 15] ); (*arr)=(T*)(*mem); (*mem)=((*arr)+x); } template<class T> inline void walloc1d(T **arr, int x1, int x2, void **mem = &wmem){ walloc1d(arr, x2-x1, mem); (*arr) -= x1; } inline int my_getchar_unlocked(){ static char buf[1048576]; static int s = 1048576; static int e = 1048576; if(s == e && e == 1048576){ e = fread_unlocked(buf, 1, 1048576, stdin); s = 0; } if(s == e){ return EOF; } return buf[s++]; } inline void rd(int &x){ int k; int m=0; x=0; for(;;){ k = my_getchar_unlocked(); if(k=='-'){ m=1; break; } if('0'<=k&&k<='9'){ x=k-'0'; break; } } for(;;){ k = my_getchar_unlocked(); if(k<'0'||k>'9'){ break; } x=x*10+k-'0'; } if(m){ x=-x; } } inline void rd(long long &x){ int k; int m=0; x=0; for(;;){ k = my_getchar_unlocked(); if(k=='-'){ m=1; break; } if('0'<=k&&k<='9'){ x=k-'0'; break; } } for(;;){ k = my_getchar_unlocked(); if(k<'0'||k>'9'){ break; } x=x*10+k-'0'; } if(m){ x=-x; } } inline void rd(char &c){ int i; for(;;){ i = my_getchar_unlocked(); if(i!=' '&&i!='\n'&&i!='\r'&&i!='\t'&&i!=EOF){ break; } } c = i; } inline int rd(char c[]){ int i; int sz = 0; for(;;){ i = my_getchar_unlocked(); if(i!=' '&&i!='\n'&&i!='\r'&&i!='\t'&&i!=EOF){ break; } } c[sz++] = i; for(;;){ i = my_getchar_unlocked(); if(i==' '||i=='\n'||i=='\r'||i=='\t'||i==EOF){ break; } c[sz++] = i; } c[sz]='\0'; return sz; } struct MY_WRITER{ char buf[1048576]; int s; int e; MY_WRITER(){ s = 0; e = 1048576; } ~MY_WRITER(){ if(s){ fwrite_unlocked(buf, 1, s, stdout); } } } ; MY_WRITER MY_WRITER_VAR; void my_putchar_unlocked(int a){ if(MY_WRITER_VAR.s == MY_WRITER_VAR.e){ fwrite_unlocked(MY_WRITER_VAR.buf, 1, MY_WRITER_VAR.s, stdout); MY_WRITER_VAR.s = 0; } MY_WRITER_VAR.buf[MY_WRITER_VAR.s++] = a; } inline void wt_L(char a){ my_putchar_unlocked(a); } inline void wt_L(int x){ int s=0; int m=0; char f[10]; if(x<0){ m=1; x=-x; } while(x){ f[s++]=x%10; x/=10; } if(!s){ f[s++]=0; } if(m){ my_putchar_unlocked('-'); } while(s--){ my_putchar_unlocked(f[s]+'0'); } } inline void wt_L(long long x){ int s=0; int m=0; char f[20]; if(x<0){ m=1; x=-x; } while(x){ f[s++]=x%10; x/=10; } if(!s){ f[s++]=0; } if(m){ my_putchar_unlocked('-'); } while(s--){ my_putchar_unlocked(f[s]+'0'); } } template<class S, class T> inline S chmin(S &a, T b){ if(a>b){ a=b; } return a; } template <class T> struct LHeap{ int*hp; int*place; int size; T*val; void malloc(int N){ hp = (int*)std::malloc(N*sizeof(int)); place=(int*)std::malloc(N*sizeof(int)); val=(T*)std::malloc(N*sizeof(T)); } void malloc(int N, int ini){ hp = (int*)std::malloc(N*sizeof(int)); place=(int*)std::malloc(N*sizeof(int)); val=(T*)std::malloc(N*sizeof(T)); if(ini){ init(N); } } void walloc(int N, void **mem=&wmem){ walloc1d(&hp, N, mem); walloc1d(&place, N, mem); walloc1d(&val, N, mem); } void walloc(int N, int ini, void **mem=&wmem){ walloc1d(&hp, N, mem); walloc1d(&place, N, mem); walloc1d(&val, N, mem); if(ini){ init(N); } } void free(){ std::free(hp); std::free(place); std::free(val); } void init(int N){ int i; size=0; for(i=(0);i<(N);i++){ place[i]=-1; } } void up(int n){ int m; while(n){ m=(n-1)/2; if(val[hp[m]]<=val[hp[n]]){ break; } swap(hp[m],hp[n]); swap(place[hp[m]],place[hp[n]]); n=m; } } void down(int n){ int m; for(;;){ m=2*n+1; if(m>=size){ break; } if(m+1<size&&val[hp[m]]>val[hp[m+1]]){ m++; } if(val[hp[m]]>=val[hp[n]]){ break; } swap(hp[m],hp[n]); swap(place[hp[m]],place[hp[n]]); n=m; } } void change(int n, T v){ T f = val[n]; val[n] = v; if(place[n]==-1){ place[n] = size; hp[size++] = n; up(place[n]); } else{ if(f < v){ down(place[n]); } else if(f > v){ up(place[n]); } } } int pop(void){ int res = hp[0]; place[res] = -1; size--; if(size){ hp[0]=hp[size]; place[hp[0]]=0; down(0); } return res; } } ; template<class FT, class CT> struct minCostFlow{ int node; int*es; int*emem; int**edge; int**rev; FT**flow; FT f_eps; CT**cost; CT*potential; CT c_eps; LHeap<CT> hp; char*reached; CT*cur_cost; int*level; void malloc(int N){ int i; es = (int*)std::malloc(N*sizeof(int)); emem = (int*)std::malloc(N*sizeof(int)); edge = (int**)std::malloc(N*sizeof(int*)); rev = (int**)std::malloc(N*sizeof(int*)); flow = (FT**)std::malloc(N*sizeof(FT*)); cost = (CT**)std::malloc(N*sizeof(CT*)); for(i=(0);i<(N);i++){ emem[i] = 0; edge[i] = rev[i] = NULL; flow[i] = NULL; cost[i] = NULL; } hp.malloc(N); reached = (char*)std::malloc(N*sizeof(char)); cur_cost = (CT*)std::malloc(N*sizeof(CT)); potential = (CT*)std::malloc(N*sizeof(CT)); level = (int*)std::malloc(N*sizeof(int)); node = N; for(i=(0);i<(N);i++){ es[i] = 0; } f_eps = (FT)1e-9; c_eps = (CT)1e-9; } void init(int N){ int i; node = N; for(i=(0);i<(N);i++){ es[i] = 0; } f_eps = (FT)1e-9; c_eps = (CT)1e-9; } void memoryExpand(int i, int sz){ if(sz <= emem[i]){ return; } sz =max_L(max_L(sz, 3), 2*emem[i]); emem[i] = sz; edge[i] = (int*)realloc(edge[i], sz*sizeof(int)); rev[i] = (int*)realloc(rev[i], sz*sizeof(int)); flow[i] = (FT*)realloc(flow[i], sz*sizeof(FT)); cost[i] = (CT*)realloc(cost[i], sz*sizeof(CT)); } void addEdge(int n1, int n2, FT f, CT c){ int s1 = es[n1]++; int s2 = es[n2]++; if(s1 >= emem[n1]){ memoryExpand(n1, es[n1]); } if(s2 >= emem[n2]){ memoryExpand(n2, es[n2]); } edge[n1][s1] = n2; edge[n2][s2] = n1; rev[n1][s1] = s2; rev[n2][s2] = s1; flow[n1][s1] = f; flow[n2][s2] = 0; cost[n1][s1] = c; cost[n2][s2] = -c; } FT solve_do_flow(int i, int ed, FT flim){ int j; int k; FT res = 0; FT tmp; FT send; CT nc; if(i == ed){ return flim; } for(j=(0);j<(es[i]);j++){ if(flow[i][j] <= f_eps){ continue; } k = edge[i][j]; if(reached[k]==0 || level[k] <= level[i]){ continue; } nc = cur_cost[i] + cost[i][j] + potential[i] - potential[k]; if(cur_cost[k] < nc - c_eps || cur_cost[k] > nc + c_eps){ continue; } if(flim < -f_eps){ send = flow[i][j]; } else{ send =min_L(flim, flow[i][j]); } tmp = solve_do_flow(k, ed, send); if(tmp < f_eps){ continue; } res += tmp; flow[i][j] -= tmp; flow[k][rev[i][j]] += tmp; if(flim >= -f_eps){ flim -= tmp; if(flim <= f_eps){ break; } } } return res; } template<class FTS, class CTS> void solve(int st, int ed, FTS &fres, CTS &cres, FT flim = -1, CT clim = 0){ int i; int j; int k; int l; FT f; CT nc; fres = 0; cres = 0; for(i=(0);i<(node);i++){ potential[i] = 0; } for(;;){ if(flim >= -f_eps && flim <= f_eps){ break; } hp.init(node); for(i=(0);i<(node);i++){ reached[i] = 0; } reached[st] = 1; cur_cost[st] = 0; l = 0; hp.change(st, cur_cost[st]); while(hp.size){ i = hp.pop(); level[i] = l++; for(j=(0);j<(es[i]);j++){ if(flow[i][j] <= f_eps){ continue; } k = edge[i][j]; nc = cur_cost[i] + cost[i][j] + potential[i] - potential[k]; if(reached[k]==0 || cur_cost[k] > nc+c_eps){ reached[k] = 1; cur_cost[k] = nc; hp.change(k, cur_cost[k]); } } } if(reached[ed]==0){ break; } if(flim==-2 && cur_cost[ed] + potential[ed] >= clim){ break; } f = solve_do_flow(st, ed, flim); if(f <= f_eps){ break; } for(i=(0);i<(node);i++){ if(reached[i]){ potential[i] += cur_cost[i]; } } fres += f; cres += f * potential[ed]; if(flim >= -f_eps){ flim -= f; } } } } ; int N; char S[2002]; long long A[2000]; int ps[4]; int p[4][2001]; int main(){ wmem = memarr; int i; int j; int k; minCostFlow<int,long long> f; int node; int st; int ed; long long cost; long long flow; long long totcost = 0; long long totflow = 0; long long res = 0; rd(N); rd(S); { int Lj4PdHRW; for(Lj4PdHRW=(0);Lj4PdHRW<(N);Lj4PdHRW++){ rd(A[Lj4PdHRW]); } } node = N; st = node++; ed = node++; f.malloc(node); f.init(node); for(i=(0);i<(N);i++){ if(S[i]=='y'){ p[0][ps[0]++] = i; } if(S[i]=='u'){ p[1][ps[1]++] = i; } if(S[i]=='k'){ p[2][ps[2]++] = i; } if(S[i]=='i'){ p[3][ps[3]++] = i; } } int RZTsC2BF; int FmcKpFmN; if(4==0){ FmcKpFmN = 0; } else{ FmcKpFmN = ps[0]; for(RZTsC2BF=(1);RZTsC2BF<(4);RZTsC2BF++){ FmcKpFmN = min_L(FmcKpFmN, ps[RZTsC2BF]); } } if(FmcKpFmN==0){ wt_L(0); wt_L('\n'); return 0; } f.addEdge(st, p[0][0], 1073709056, 0LL); for(i=(0);i<(ps[3]);i++){ f.addEdge(p[3][i], ed, 1, 1000000000-A[p[3][i]]); } for(k=(0);k<(4);k++){ for(i=(1);i<(ps[k]);i++){ f.addEdge(p[k][i-1], p[k][i], 1073709056, 0LL); } } for(k=(0);k<(3);k++){ j = 0; for(i=(0);i<(ps[k]);i++){ while(j < ps[k+1] && p[k+1][j] < p[k][i]){ j++; } if(j == ps[k+1]){ break; } f.addEdge(p[k][i], p[k+1][j], 1, 1000000000-A[p[k][i]]); } } f.solve(st, ed, flow, cost, -2, 4000000000LL); wt_L(4000000000LL*flow - cost); wt_L('\n'); return 0; } // cLay version 20201204-1 [beta] // --- original code --- // int N; // char S[2002]; // ll A[2000]; // int ps[4], p[4][2001]; // { // int i, j, k; // minCostFlow<int,ll> f; // int node, st, ed; // ll cost, flow, totcost = 0, totflow = 0, res = 0; // rd(N,S,A(N)); // // node = N; // st = node++; // ed = node++; // // f.malloc(node); // f.init(node); // // rep(i,N){ // if(S[i]=='y') p[0][ps[0]++] = i; // if(S[i]=='u') p[1][ps[1]++] = i; // if(S[i]=='k') p[2][ps[2]++] = i; // if(S[i]=='i') p[3][ps[3]++] = i; // } // if(min(ps(4))==0) wt(0), return 0; // // f.addEdge(st, p[0][0], int_inf, 0LL); // rep(i,ps[3]) f.addEdge(p[3][i], ed, 1, 1d9-A[p[3][i]]); // rep(k,4) rep(i,1,ps[k]) f.addEdge(p[k][i-1], p[k][i], int_inf, 0LL); // rep(k,3){ // j = 0; // rep(i,ps[k]){ // while(j < ps[k+1] && p[k+1][j] < p[k][i]) j++; // if(j == ps[k+1]) break; // f.addEdge(p[k][i], p[k+1][j], 1, 1d9-A[p[k][i]]); // } // } // // f.solve(st, ed, flow, cost, -2, 4d9); // wt(4d9*flow - cost); // // for(;;){ // // f.solve(st, ed, flow, cost, 1); // // if(!flow) break; // // (totflow, totcost) += (flow, cost); // // wt(flow,cost); // // res >?= 4d9 * totflow - totcost; // // } // // wt(res); // }