Datasets:

hackercupai
/

hackercup

	// Finshakes
	// Solution by Jacob Plachta

	#define DEBUG 0

	#include <algorithm>
	#include <functional>
	#include <numeric>
	#include <iostream>
	#include <iomanip>
	#include <cstdio>
	#include <cmath>
	#include <complex>
	#include <cstdlib>
	#include <ctime>
	#include <cstring>
	#include <cassert>
	#include <string>
	#include <vector>
	#include <list>
	#include <map>
	#include <set>
	#include <deque>
	#include <queue>
	#include <stack>
	#include <bitset>
	#include <sstream>
	using namespace std;

	#define LL long long
	#define LD long double
	#define PR pair<int,int>

	#define Fox(i,n) for (i=0; i<n; i++)
	#define Fox1(i,n) for (i=1; i<=n; i++)
	#define FoxI(i,a,b) for (i=a; i<=b; i++)
	#define FoxR(i,n) for (i=(n)-1; i>=0; i--)
	#define FoxR1(i,n) for (i=n; i>0; i--)
	#define FoxRI(i,a,b) for (i=b; i>=a; i--)
	#define Foxen(i,s) for (i=s.begin(); i!=s.end(); i++)
	#define Min(a,b) a=min(a,b)
	#define Max(a,b) a=max(a,b)
	#define Sz(s) int((s).size())
	#define All(s) (s).begin(),(s).end()
	#define Fill(s,v) memset(s,v,sizeof(s))
	#define pb push_back
	#define mp make_pair
	#define x first
	#define y second

	template<typename T> T Abs(T x) { return(x<0 ? -x : x); }
	template<typename T> T Sqr(T x) { return(x*x); }
	string plural(string s) { return(Sz(s) && s[Sz(s)-1]=='x' ? s+"en" : s+"s"); }

	const int INF = (int)1e9;
	const LD EPS = 1e-12;
	const LD PI = acos(-1.0);

	#if DEBUG
	#define GETCHAR getchar
	#else
	#define GETCHAR getchar_unlocked
	#endif

	bool Read(int &x)
	{
	char c,r=0,n=0;
	x=0;
	for(;;)
	{
	c=GETCHAR();
	if ((c<0) && (!r))
	return(0);
	if ((c=='-') && (!r))
	n=1;
	else
	if ((c>='0') && (c<='9'))
	x=x*10+c-'0',r=1;
	else
	if (r)
	break;
	}
	if (n)
	x=-x;
	return(1);
	}

	#define MAXN 500
	#define MAXM 51

	int N,M,W;
	int H[MAXN];
	int L[MAXM],R[MAXM];
	vector<int> ch[MAXM];
	int dyn[MAXM][MAXM][MAXM][MAXM],tmp[MAXM][MAXM][MAXM];
	// dyn[i][a][m][b] = max. finshakes in i's subtree, such that:
	// a = number of fish at left edge of i's interval
	// m = max. number of fish in any pool within i's interval
	// b = number of fish at right edge of i's interval

	void rec(int i)
	{
	int j,c,a,a2,b,b2,m,m2,m3,d,d2,d3;
	bool o,e1,e2;
	// iterate over children
	dyn[i][0][0][0]=0;
	Fox(j,Sz(ch[i]))
	{
	// recurse to child
	rec(c=ch[i][j]);
	if (!j)
	{
	memcpy(dyn[i],dyn[c],sizeof(dyn[i]));
	continue;
	}
	// does this child overlap with the previous child?
	o=R[ch[i][j-1]]==L[c];
	// incorporate child into DP values
	Fill(tmp,-1);
	Fox(a,M+1)
	Fox(m,M+1)
	Fox(b,M+1)
	if ((d=dyn[i][a][m][b])>=0)
	Fox(a2,M+1)
	Fox(m2,M+1)
	Fox(b2,M+1)
	if ((d2=dyn[c][a2][m2][b2])>=0)
	{
	m3=max(m,m2);
	d3=d+d2;
	if (o)
	{
	Max(m3,b+a2);
	d3+=b*a2;
	}
	Max(tmp[a][m3][b2],d3);
	}
	memcpy(dyn[i],tmp,sizeof(dyn[i]));
	}
	// do the children extend to this interval's edges?
	if (Sz(ch[i]))
	{
	e1=L[ch[i][0]]==L[i];
	e2=R[ch[i][Sz(ch[i])-1]]==R[i];
	Fill(tmp,-1);
	Fox(a,M+1)
	Fox(m,M+1)
	Fox(b,M+1)
	Max(tmp[e1 ? a : 0][m][e2 ? b : 0],dyn[i][a][m][b]);
	memcpy(dyn[i],tmp,sizeof(dyn[i]));
	}
	// incorporate this fish
	if (i==M)
	return;
	Fill(tmp,-1);
	Fox(a,M+1)
	Fox(m,M+1)
	Fox(b,M+1)
	if ((d=dyn[i][a][m][b])>=0)
	if (L[i]==R[i])
	{
	// add onto only pool in interval
	Max(tmp[a+1][m+1][b+1],d+m);
	}
	else
	{
	// add onto left
	Max(tmp[a+1][max(m,a+1)][b],d+a);
	// add onto max
	Max(tmp[a][m+1][b],d+m);
	// add onto right
	Max(tmp[a][max(m,b+1)][b+1],d+b);
	}
	memcpy(dyn[i],tmp,sizeof(dyn[i]));
	}

	int main()
	{
	if (DEBUG)
	freopen("in.txt","r",stdin);
	// vars
	int T,t;
	int i,j,p,a,m,b,ans;
	PR F[MAXM];
	set< pair<PR,int> > S;
	set< pair<PR,int> >::iterator I,J;
	// testcase loop
	Read(T);
	Fox1(t,T)
	{
	// input, and compute fish intervals
	Read(N),Read(M),Read(W);
	Fox(i,N)
	Read(H[i]),H[i]=W-H[i];
	Fox(i,M)
	{
	Read(p),Read(j),p--;
	a=b=p;
	while ((a>0) && (H[a]<j))
	a--;
	L[i]=a;
	while ((b<N-1) && (H[b]<j))
	b++;
	R[i]=b;
	}
	// sort fish by interval sizes
	Fox(i,M)
	F[i]=mp(R[i]-L[i],i);
	sort(F,F+M);
	// form tree out of fish
	Fox(i,M+1)
	ch[i].clear();
	S.clear();
	Fox(i,M)
	{
	j=F[i].y;
	I=S.lower_bound(mp(mp(L[j],0),0));
	while ((I!=S.end()) && (I->x.y<=R[j]))
	{
	ch[j].pb(I->y);
	J=I,I++;
	S.erase(J);
	}
	S.insert(mp(mp(L[j],R[j]),j));
	}
	Foxen(I,S)
	ch[M].pb(I->y);
	// DP
	Fill(dyn,-1);
	rec(M);
	// get answer
	ans=0;
	Fox(a,M+1)
	Fox(m,M+1)
	Fox(b,M+1)
	Max(ans,dyn[M][a][m][b]);
	// output
	printf("Case #%d: %d\n",t,ans);
	}
	return(0);
	}