Datasets:

hackercupai
/

hackercup

	// The Claw
	// 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 LIM 2100000

	PR P[LIM],R[LIM],S[LIM];
	vector<int> YP[LIM];
	vector<PR> YR[LIM];
	int sz;
	int tree[LIM],lazy[LIM];

	void Prop(int i)
	{
	tree[i]+=lazy[i];
	if (i<sz)
	{
	lazy[i<<1]+=lazy[i];
	lazy[(i<<1)+1]+=lazy[i];
	}
	lazy[i]=0;
	}

	void Update(int i,int r1,int r2,int a,int b,int v)
	{
	Prop(i);
	if ((a<=r1) && (r2<=b))
	{
	lazy[i]+=v;
	Prop(i);
	return;
	}
	int c=i<<1,m=(r1+r2)>>1;
	if (a<=m)
	Update(c,r1,m,a,b,v);
	if (b>m)
	Update(c+1,m+1,r2,a,b,v);
	Prop(c),Prop(c+1);
	tree[i]=max(tree[c],tree[c+1]);
	}

	int main()
	{
	if (DEBUG)
	freopen("in.txt","r",stdin);
	// vars
	int T,t;
	int N,M,K;
	int i,j,k,s,y,a,b,p,d;
	LL ans;
	// testcase loop
	Read(T);
	Fox1(t,T)
	{
	// init
	Fox(i,LIM)
	YP[i].clear(),YR[i].clear();
	// input
	Read(N),Read(M);
	ans=M;
	Fox(i,N)
	{
	Read(P[i].x),Read(P[i].y);
	ans-=P[i].y;
	YP[P[i].y].pb(P[i].x);
	if (i)
	R[i-1]=mp(max(P[i-1].x,P[i].x),min(P[i-1].x,P[i].x));
	}
	// associate intervals with their max contained heights
	sort(P,P+N);
	sort(R,R+N-1);
	j=s=0;
	Fox(i,N-1)
	{
	a=R[i].y,b=R[i].x;
	// maintain convex hull of max heights so far
	while ((j<N) && (P[j].x<=b))
	{
	while ((s) && (S[s-1].y<=P[j].y))
	s--;
	S[s++]=P[j++];
	}
	// binary search for max height no earlier than the start of this interval
	k=lower_bound(S,S+s,mp(a,0))-S;
	ans+=(y=S[k].y)+1;
	YR[y].pb(R[i]);
	}
	// process set of targets at each height
	Fox(i,LIM)
	if (K=Sz(YP[i]))
	{
	// sort targets/intervals at this height
	sort(All(YP[i]));
	sort(All(YR[i]));
	// segment-tree-assisted DP
	for(sz=1;sz<K+1;sz<<=1);
	memset(tree,0,sizeof(int)sz2);
	memset(lazy,0,sizeof(int)sz2);
	k=0,d=-1;
	Fox(j,K+1)
	{
	// update prior DP values for intervals ending at this target
	p=j==K ? INF : YP[i][j];
	while ((k<Sz(YR[i])) && (YR[i][k].x<p))
	{
	a=lower_bound(All(YP[i]),YR[i][k++].y)-YP[i].begin();
	Update(1,0,sz-1,0,a,1);
	}
	// compute DP value
	d=max(d+1,tree[1]);
	Update(1,0,sz-1,j,j,d);
	}
	ans-=d;
	}
	// output
	printf("Case #%d: %lld\n",t,ans*2);
	}
	return(0);
	}