ソースコード

#include <algorithm>
#include <iostream>
#include <vector>
using namespace std;

#define FOR(i,m,n) for(int i=(m);i<(n);++i)
#define REP(i,n) FOR(i,0,n)
#define ALL(v) (v).begin(),(v).end()
/*-------------------------------------------------*/
using CostType = long long;
struct Edge {
  int src, dst; CostType cost;
  Edge(int src, int dst, CostType cost = 0) : src(src), dst(dst), cost(cost) {}
  inline bool operator<(const Edge &rhs) const {
    return cost != rhs.cost ? cost < rhs.cost : dst != rhs.dst ? dst < rhs.dst : src < rhs.src;
  }
  inline bool operator<=(const Edge &rhs) const { return cost <= rhs.cost; }
  inline bool operator>(const Edge &rhs) const {
    return cost != rhs.cost ? cost > rhs.cost : dst != rhs.dst ? dst > rhs.dst : src > rhs.src;
  }
  inline bool operator>=(const Edge &rhs) const { return cost >= rhs.cost; }
};

struct SCC {
  vector<int> id;
  // vector<vector<int> > vertices;
  vector<vector<Edge> > comp;

  SCC(const vector<vector<Edge> > &graph) : graph(graph) {
    n = graph.size();
    rev_graph.resize(n);
    REP(i, n) for (const Edge &e : graph[i]) {
      rev_graph[e.dst].emplace_back(e.dst, e.src, e.cost);
    }
    used.assign(n, false);
    id.assign(n, -1);
    REP(i, n) {
      if (!used[i]) dfs(i);
    }
    int now = 0;
    for (int i = n - 1; i >= 0; --i) {
      if (id[order[i]] == -1) {
        // vertices.emplace_back();
        rev_dfs(order[i], now++);
      }
    }
    comp.resize(now);
    REP(i, n) for (const Edge &e : graph[i]) {
      if (id[i] != id[e.dst]) comp[id[i]].emplace_back(id[i], id[e.dst], e.cost);
    }
    // REP(i, now) sort(ALL(vertices[i]));
  }

private:
  int n;
  vector<vector<Edge> > graph, rev_graph;
  vector<bool> used;
  vector<int> order;

  void dfs(int ver) {
    used[ver] = true;
    for (const Edge &e : graph[ver]) {
      if (!used[e.dst]) dfs(e.dst);
    }
    order.emplace_back(ver);
  }

  void rev_dfs(int ver, int now) {
    id[ver] = now;
    // vertices[now].emplace_back(ver);
    for (Edge &e : rev_graph[ver]) {
      if (id[e.dst] == -1) rev_dfs(e.dst, now);
    }
  }
};

struct TwoSat {
  TwoSat(int n) : n(n) { graph.resize(n * 2); }

  int negate(int x) { return (n + x) % (n * 2); }

  void add_or(int x, int y) {
    graph[negate(x)].emplace_back(negate(x), y);
    graph[negate(y)].emplace_back(negate(y), x);
  }

  void add_if(int x, int y) { add_or(negate(x), y); }

  void add_nand(int x, int y) { add_or(negate(x), negate(y)); }

  void set_true(int x) { add_or(x, x); }

  void set_false(int x) { set_true(negate(x)); }

  vector<bool> build() {
    SCC scc(graph);
    vector<bool> res(n);
    REP(i, n) {
      if (scc.id[i] == scc.id[negate(i)]) return {};
      res[i] = scc.id[negate(i)] < scc.id[i];
    }
    return res;
  }

private:
  int n;
  vector<vector<Edge> > graph;
};

int main() {
  cin.tie(nullptr); ios::sync_with_stdio(false);
  // freopen("input.txt", "r", stdin);

  int n, m; cin >> n >> m;
  vector<int> l(n), r(n); REP(i, n) cin >> l[i] >> r[i];
  TwoSat ts(n);
  REP(i, n) REP(j, i) {
    if (l[i] <= r[j] && l[j] <= r[i]) ts.add_nand(i, j);
    if (l[i] <= m - l[j] - 1 && m - r[j] - 1 <= r[i]) ts.add_nand(i, ts.negate(j));
    if (m - r[i] - 1 <= r[j] && l[j] <= m - l[i] - 1) ts.add_nand(ts.negate(i), j);
    if (m - r[i] - 1 <= m - l[j] - 1 && m - r[j] - 1 <= m - l[i] - 1) ts.add_nand(ts.negate(i), ts.negate(j));
  }
  cout << (ts.build().empty() ? "NO\n" : "YES\n");
  return 0;
}