标签:运行 efi col n+1 cpp 质量 vector define 时间
感觉难度和邀请赛类似,题目质量也低于国内邀请赛,(题面/数据不出锅的情况下)
https://codeforces.com/gym/101908
A.大概是莫比乌斯之类的,不会
B:博弈,不会
C:欧拉公式+二维偏序
首先,根据平面图欧拉公式,可推导出答案为$n+m+1+$交叉的数量
交叉的数量由三部分构成,横竖交叉数,横横交叉数和竖竖交叉数
显然,前者为$nm$,后两个为简单的二维偏序问题,
比较扯淡的是,先T了一发,从map改完二分,交的时候才意识到是没关同步
#include<bits/stdc++.h> #define ll long long #define rep(ii,a,b) for(int ii=a;ii<=b;++ii) #define IO ios::sync_with_stdio(false);cin.tie(0);cout.tie(0) #define fi first #define se second #define pii pair<int,int> #define all(x) x.begin(),x.end() using namespace std;//head const int maxn=1e6+10,maxm=2e6+10; const ll INF=0x3f3f3f3f,mod=1e9+7; int casn,n,m,k; ll x,y; class bit{public: int node[maxn]; inline int lb(int x) {return x&(-x);} void init(int n){fill_n(node,n+1,0);} inline void update(int pos,int val,int n){for(;pos>0&&pos<=n;pos+=lb(pos)) node[pos]+=val;} inline int ask(int pos,int sum,int n){for(;pos>0;pos-=lb(pos)) sum+=node[pos];return sum;} inline int query(int l,int r,int n){return ask(r,0,n)-ask(l-1,0,n);} }tree; int px[maxn]; ll solve(int n){ int cntx=0; vector<pii>h; rep(i,1,n){ int a,b;cin>>a>>b; h.emplace_back(a,b); px[++cntx]=b; } sort(px+1,px+1+cntx); cntx=unique(px+1,px+1+cntx)-px-1; for(auto &i:h){ i.se=lower_bound(px+1,px+1+cntx,i.se)-px; } ll cnt=0; sort(all(h)); tree.init(cntx); for(auto &i:h){ cnt+=tree.query(i.se+1,cntx,cntx); tree.update(i.se,1,cntx); } return cnt; } int main() {IO; cin>>x>>y>>n>>m; ll ans=solve(n)+solve(m)+n+m+1+1ll*n*m; cout<<ans<<endl; }
D题:签到
E题:签到(30ms跑1e8已经是cf的基本操作了吗?)
F题:状压DP
先对于节目,按结束时间排序,然后依次枚举:节目数量,节目,选择的$Festival$状态,
复杂度$(2^n)(\sum{M_i})^2$,大概是1e9,最后运行时间500ms,只能说CF评测机牛逼了
#include<bits/stdc++.h> #define ll long long using namespace std; const int maxn = 86500; int dp[1100][1<<10]; struct node {int st, et, val, id;}p[1100]; bool cmp(node x, node y) {return x.et < y.et;} int main() { std::ios::sync_with_stdio(false); int n,cnt = 0, ma = 0,ans = -1; cin >> n; for(int i = 0; i < n; i++) { int k;cin >> k; for(int j = 0; j < k; j++) { int a, b, c, d; cin >> a >> b >> c; d = i; p[++cnt] = {a, b, c, d}; ma = max(ma, b); } } sort(p+1, p+1+cnt, cmp); memset(dp, -1, sizeof dp); dp[0][0] = 0; for(int i = 1; i <= cnt; i++) { dp[i][0] = 0; for(int j = 0; j < i; j++) { if(p[i].st < p[j].et) continue; for(int k = 1; k < (1<<n); k++) { if((k&(1<<p[i].id))) { if(dp[j][k] != -1) dp[i][k] = max(dp[i][k], dp[j][k]+p[i].val); if(dp[j][k-(1<<p[i].id)] != -1) dp[i][k] = max(dp[i][k], dp[j][k-(1<<p[i].id)]+p[i].val); } } } ans = max(ans, dp[i][(1<<n)-1]); } cout << ans << "\n"; }
赛后经过研究,可以优化为$(2^n)\sum{M_i}$,实测31ms
#include<bits/stdc++.h> #define ll long long using namespace std; const int maxn = 86500; int dp[1100][1<<10], ma[1100][1<<10],n, cnt; struct node {int st, et, val, id;}p[1100]; bool cmp(node x, node y) {return x.et < y.et;} int f(int R, int k) { int ans = 0, l = 1, r = R-1; while(l <= r) { int mid = (l+r)>>1; if(p[mid].et <= k) ans = mid, l = mid+1; else r = mid-1; } return ans; } int main() { std::ios::sync_with_stdio(false); cin >> n; for(int i = 0; i < n; i++) { int k;cin >> k; for(int j = 0; j < k; j++) { int a, b, c, d; cin >> a >> b >> c; d = i; p[++cnt] = {a, b, c, d}; } } sort(p+1, p+1+cnt, cmp); memset(dp, -1, sizeof dp); memset(ma, -1, sizeof ma); ma[0][0] = dp[0][0] = 0; int ans = -1; for(int i = 1; i <= cnt; i++) { dp[i][0] = 0; int sign = f(i, p[i].st); for(int k = 1; k < (1<<n); k++) { if(!(k&(1<<p[i].id))) continue; if(ma[sign][k] != -1) dp[i][k] = max(dp[i][k], ma[sign][k]+p[i].val); if(ma[sign][k-(1<<p[i].id)] != -1) dp[i][k] = max(dp[i][k], ma[sign][k-(1<<p[i].id)]+p[i].val); } for(int k = 0; k < (1<<n); k++) ma[i][k] = max(ma[i-1][k], dp[i][k]); } cout << ma[cnt][(1<<n)-1] << "\n"; return 0; }
G:二分+最小割
裸题,显然答案为使用过的最大的边,那么二分答案,看最小割是否等于$\sum{D_i}$即可,数组开小RE了一发
#include<bits/stdc++.h> #define rep(ii,a,b) for(int ii=a;ii<=b;++ii) #define per(ii,a,b) for(int ii=b;ii>=a;--ii) #define IO ios::sync_with_stdio(false);cin.tie(0);cout.tie(0) using namespace std;//head const int maxn=1e5+10,maxm=2e6+10; const int INF=0x3f3f3f3f,mod=1e9+7; int casn,n,m,k,root; class mxf{public: struct node{int to,next;int cap;}e[maxm<<1]; int cur[maxn],head[maxn],que[maxn],dis[maxn],nume=1,s,t; inline void adde(int a,int b,int c){e[++nume]={b,head[a],c};head[a]=nume;} inline void add(int a,int b,int c){adde(a,b,c);adde(b,a,0);} void init(int n=maxn-1){memset(head,0,(n+1)<<2);nume=1;} bool bfs(){ memset(dis,-1,(t+1)<<2); dis[t]=0,que[0]=t; int tp=0,ed=1; while(tp!=ed){ int now=que[tp++];tp%=maxn; for(int i=head[now];i;i=e[i].next){ int to=e[i].to; if(dis[to]==-1&&e[i^1].cap){ dis[to]=dis[now]+1; if(to==s) return true; que[ed++]=to;ed%=maxn; } } } return false; } int dfs(int now,int flow=0x3f3f3f3f){ if(now==t||flow==0) return flow; int use=0; for(int &i=head[now];i&&use!=flow;i=e[i].next){ int to=e[i].to; if(dis[to]+1!=dis[now])continue; int tmp=dfs(to,min(e[i].cap,flow-use)); e[i].cap-=tmp,e[i^1].cap+=tmp,use+=tmp; } if(!use) dis[now]=-1; return use; } int getflow(int ss,int tt){ s=ss,t=tt;int ans=0; memcpy(cur,head,(t+1)<<2); while(bfs()){ ans+=dfs(s); memcpy(head,cur,(t+1)<<2); } return ans; } }net; int need[maxn],have[maxn]; int sum,a[maxn],b[maxn],c[maxn]; bool check(int mid){ net.init(n+m+10); int ss=n+m+1,tt=ss+1; rep(i,1,k)if(c[i]<=mid)net.add(a[i]+n,b[i],INF); rep(i,1,n)net.add(i,tt,need[i]); rep(i,1,m)net.add(ss,i+n,have[i]); return net.getflow(ss,tt)>=sum; } int main() {IO; cin>>n>>m>>k; rep(i,1,n)(cin>>need[i]),sum+=need[i]; rep(i,1,m)cin>>have[i]; rep(i,1,k)cin>>b[i]>>a[i]>>c[i]; int l=1,r=1e6; int ans=-1; while(l<=r){ int mid=(l+r)>>1; if(check(mid)) ans=mid,r=mid-1; else l=mid+1; } cout<<ans<<endl; }
H题:没看
I题:签到
J题:没看
I题:计算几何,不会
L题:树上链交裸题
一种做法是用树链剖分,单次查询是$log^2n$,很裸也很简单
但是这次我尝试写了单次$logn$直接讨论情况的做法,由于本题$Q$很小,拉不开差距,
具体情况大概分为3类,讨论了很多发才过
#include<bits/stdc++.h> #define rep(ii,a,b) for(int ii=a;ii<=b;++ii) #define forn(i,x) for(int i=head[x];i;i=e[i].next) #define IO ios::sync_with_stdio(false);cin.tie(0);cout.tie(0) using namespace std;//head const int maxn=2e5+10,maxm=2e6+10; int casn,n,m,k,root; class graph{public: struct node{int to,next;}e[maxn<<1]; int head[maxn],nume,dfn[maxn]; inline void add(int a,int b){ e[++nume]={b,head[a]}; head[a]=nume; } int ltop[maxn],fa[maxn],deep[maxn]; int sz[maxn],remp[maxn]; int son[maxn],cnt; void init(int n){rep(i,1,n) head[i]=0;cnt=0,nume=1;} void dfs1(int now=root,int pre=root,int d=0){ deep[now]=d,fa[now]=pre,sz[now]=1,son[now]=0; forn(i,now){ int to=e[i].to; if(to!=pre) { dfs1(to,now,d+1); sz[now]+=sz[to]; if(sz[to]>sz[son[now]]) son[now]=to; } } } void dfs2(int now=root,int pre=root,int sp=root){ ltop[now]=sp;dfn[now]=++cnt;remp[cnt]=now; if(son[now]) dfs2(son[now],now,sp); forn(i,now){ int to=e[i].to; if(to!=son[now]&&to!=pre) dfs2(to,now,to); } } void getchain(){dfs1();dfs2();} int lca(int x,int y){ for(;ltop[x]!=ltop[y];deep[ltop[x]]>deep[ltop[y]]?x=fa[ltop[x]]:y=fa[ltop[y]]); return deep[x]<deep[y]?x:y; } inline int getdis(int a,int b){return deep[a]+deep[b]-2*deep[lca(a,b)];} bool check(int a,int b){return dfn[a]<=dfn[b]&&dfn[a]+sz[a]-1>=dfn[b]+sz[b]-1;} int getans(int a1,int a2,int b1,int b2){ int ra=lca(a1,a2); bool f1=check(ra,b1),f2=check(ra,b2); if(!f1&&!f2) return 0; if(f1&&f2){ int rb=lca(b1,b2); if(!( check(rb,a1)||check(rb,a2)))return 0; int r1=lca(a1,b1),r2=lca(a1,b2),r3=lca(a2,b1),r4=lca(a2,b2); if(r1==r3&&r2==r4) return 1; return getdis(r1==ra?r3:r1,r2==ra?r4:r2)+1; } if(!f1)swap(b1,b2); int r1=lca(a1,b1),r3=lca(a2,b1); return getdis(r1==ra?r3:r1,ra)+1; } }g; int d[maxn],a,b,a1,a2,b1,b2; int main() {IO; cin>>n>>m; rep(i,2,n){ cin>>a>>b; g.add(a,b);g.add(b,a); d[a]++,d[b]++; } rep(i,1,n) if(d[i]>1) {root=i;break;} g.getchain(); while(m--){ cin>>a1>>a2>>b1>>b2; int ans=g.getans(a1,a2,b1,b2); cout<<ans<<endl; } }
M题:没看
gym101908 [2018-2019 ACM-ICPC Brazil Subregional Programming Contest] 题解
标签:运行 efi col n+1 cpp 质量 vector define 时间
原文地址:https://www.cnblogs.com/nervendnig/p/11515957.html