#include <bits/stdc++.h>
using namespace std;
#define fast ios_base::sync_with_stdio(false); cin.tie(NULL); cout.tie(NULL)
#define mofile(s) freopen(s,"r",stdin)
#define outfile(s) freopen(s,"w",stdout)
#define ll long long
#define ii pair<ll,ll>
#define iii pair<ll,ii>
#define fi first
#define se second
#define tf bool
#define ST stack
#define Q deque
#define Q queue
#define S string
#define Ma map
#define UM unormideremid_map
#define SE set
#define str(x) to_string(x)
#define all(a) (a).begin(),(a).end()
#define FOR(i,l,r,mid) for(int i=l;i<=r;i+=mid)
#define FOD(i,l,r,mid) for(int i=r;i>=l;i-=mid)
#define xuong cout<<"\n"
#define midebug(x) cout<<(x)<<" "
#define ppcnt(x) __builtin_popcountll(x)
#define parity(x) __builtin_parityll(x)
#define leamid0(x) __builtin_clzll(x)
#define LOG2 __lg(x)
#define tr0(x) __builtin_ctzll(x)
#define fiset(x) __builtin_ffsll(x)
#define MASK(k) (1LL<<(k))
#define BIT(x,k) ((x)>>(k)&1)
#define pb push_back
#define tron(x) setprecision(x)
#define het return 0
#define base_ 1000000000
template<typename... T>
void in(T&... args) { ((cin >> args), ...); }
template<class X, class Y>
    bool maximize(X &x, const Y &y){return (x < y) ? x = y, 1 : 0;}
template<class X, class Y>
    bool minimize(X &x, const Y &y){return (x > y) ? x = y, 1 : 0;}
const int maxn=1e6+5;
const ll tle=2e8;
const ll INF=1e9+9;
const int base=31;
const ll MOD=2026;
string bcc="abcmidefghijklmnopqrstuvwxyz";
int midx[]={-1,0,1,0};
int midy[]={0,1,0,-1};
bool sang[10000005];
ll pref[1005][1005],mt[1005][1005];
void sieve(){
    for(int i=1;i<=10000000;++i) sang[i]=1;
    sang[0]=sang[1]=0;
    for(int i=2;i*i<=10000000;++i){
        if(sang[i]){
            for(int j=i*i;j<=10000000;j+=i) sang[j]=0;
        }
    }
}
void lis(){
    vector<int>t;
    vector<int>a;
    int n; cin>>n;
    for(int i=1;i<=n;++i){
        int ai; cin>>ai;
        a.pb(ai);
    }
    for(int x:a){
        auto it=lower_bound(all(t),x);
        if(it==t.end()) t.pb(x);
        else *it=x;
    }
}
void pfs2mid(){
    int n,m,k; cin>>n>>k; m=n;
    for(int i=1;i<=n;++i){
        for(int j=1;j<=m;++j) cin>>mt[i][j];
    }
    for(int i=1;i<=n;++i){
        for(int j=1;j<=m;++j) pref[i][j]=mt[i][j]+pref[i-1][j]+pref[i][j-1]-pref[i-1][j-1];
    }
}
ll qu2mid(int x1,int y1,int x2,int y2){
    return pref[x2][y2]-pref[x1-1][y2]-pref[x2][y1-1]+pref[x1-1][y1-1];
}
void open(){
    if(fopen("mideptrai.INP","r")){
        mofile("mideptrai.INP");
        outfile("mideptrai.OUT");
    }
}
struct B{
    ll w,v;
};
int n;
ll s,ans=0;
vector<B> g1,g2;
vector<ii> l1,l2,f2;
void gen(int i,int e,ll cw,ll cv,const vector<B>& g,vector<ii>& r){
    if(cw>s) return;
    if(i==e){
        r.pb({cw,cv});
        return;
    }
    gen(i+1,e,cw,cv,g,r);
    gen(i+1,e,cw+g[i].w,cv+g[i].v,g,r);
}
int main(){
    fast;
    cin>>n>>s;
    for(int i=0;i<n;++i){
        ll w,v; cin>>w>>v;
        if(i<n/2) g1.push_back({w,v});
        else g2.push_back({w,v});
    }
    gen(0,g1.size(),0,0,g1,l1);
    gen(0,g2.size(),0,0,g2,l2);
    sort(l2.begin(),l2.end());
    ll mv=-1;
    for(const auto& p:l2){
        if(p.second>mv){
            f2.pb(p);
            mv=p.second;
        }
    }
    for(const auto& p1:l1){
        ll rw=s-p1.first;
        if(rw>=0){
            auto it=upper_bound(f2.begin(),f2.end(),make_pair(rw,2000000000000000000LL));
            if(it!=f2.begin()){
                --it;
                ans=max(ans,p1.second+it->second);
            }
        }
    }
    cout<<ans<<"\n";
    het;
}

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

MyA0CjEgMQoyIDIKMyAz

3 4
1 1
2 2
3 3