#include using namespace std; typedef signed long long ll; #define _P(...) (void)printf(__VA_ARGS__) #define FOR(x,to) for(x=0;x<(to);x++) #define FORR(x,arr) for(auto& x:arr) #define FORR2(x,y,arr) for(auto& [x,y]:arr) #define ALL(a) (a.begin()),(a.end()) #define ZERO(a) memset(a,0,sizeof(a)) #define MINUS(a) memset(a,0xff,sizeof(a)) template bool chmax(T &a, const T &b) { if(a bool chmin(T &a, const T &b) { if(a>b){a=b;return 1;}return 0;} //------------------------------------------------------- int N,M; int A[202020],B[202020],C[202020]; ll dp[202020]; template struct LeChaoTree { static const V inf=3LL<<60; const ll range=1<<20; const bool cmptype=false; //true:max false:min struct node { node(V a=0,V b=-inf) : A(a),B(b){ le=ri=NULL;} V val(ll x) { return A*x+B;} V A,B; // Ax+B node *le, *ri; }; node* root; LeChaoTree() { root=new node(0,-inf);} void add(node* n, V a,V b,ll L,ll R,ll T) { if(T<=L) return; ll M=(L+R)/2; if(T>=R) { bool lef=(n->val(L) > a*L+b); bool mid=(n->val(M) > a*M+b); bool ri=(n->val(R) > a*R+b); if(lef&&ri) return; if(!lef&&(!ri || R-L==1)) { n->A=a; n->B=b; return; } } if(R-L==1) return; if(!n->ri) n->ri=new node(); if(!n->le) n->le=new node(); add(n->ri,a,b,M,R,T); add(n->le,a,b,L,M,T); } void add(V a,V b,V T) { add(root,-a,-b,0,range,T); } V query(ll x) { V ret=-inf; node* cur=root; ll L=0, R=range; while(cur) { ret=max(ret,cur->val(x)); ll m=(L+R)/2; if(xle, R=m; else cur=cur->ri, L=m; } if(!cmptype) ret=-ret; return ret; } }; LeChaoTree lct; using VT = vector; vector Zalgo(VT s) { vector v(1,s.size()); for(int i=1,l=-1,r=-1;ir)?i:(r+1); while(r>N>>M; vector X; FOR(i,N) { cin>>A[i]; X.push_back(A[i]); } X.push_back(0); FOR(i,M) { cin>>B[i]; X.push_back(B[i]); } auto Z=Zalgo(X); FOR(i,M) cin>>C[i]; FOR(i,M+1) dp[i]=1LL<<60; dp[0]=0; lct.add(0,0,1); FOR(i,M) { x=Z[N+1+i]; if(x==0) continue; ll v=lct.query(i); lct.add(C[i],v-(1LL*i*C[i]),i+x+1); } ll v=lct.query(M); if(v==3LL<<60) v=-1; cout<