洛谷-P3369-普通平衡树（Treap）

题目传送门

标题说平衡树，那么应该AVL，红黑树都能过，但是这次做这题主要是学习Treap，所以花了几天搞出了这题。其他方法以后再说吧

• Treap（带旋转）

  #include <bits/stdc++.h>
  using namespace std;
  const int MAXN = 100010;
  const int INF = 0x3f3f3f3f;
  struct Treap {
      int son[2];
      int val, rand;
      int cnt, size;
  } node[MAXN];
  int root, tot;
  void update(int i) {
      int ls = node[i].son[0];
      int rs = node[i].son[1];
      node[i].size = node[ls].size + node[rs].size + node[i].cnt;
  }
  void rotate(int& r, int index) {
      int k = node[r].son[index ^ 1];
      node[r].son[index ^ 1] = node[k].son[index];
      node[k].son[index] = r;
      update(r); update(k);
      r = k;
  }
  void insert(int& r, int v) {
      if (r == 0) {
          r = ++ tot;
          node[r].val = v;
          node[r].rand = rand();
          node[r].size = node[r].cnt = 1;
          return;
      }
      if (node[r].val == v) {
          node[r].size ++;
          node[r].cnt ++;
          return;
      }
      int index = v > node[r].val;
      insert(node[r].son[index], v);
      if (node[node[r].son[index]].rand < node[r].rand) rotate(r, index ^ 1);
      update(r);
  }
  void erase(int& r, int v) {
      if (r == 0) return;
      if (v == node[r].val) {
          if (node[r].cnt > 1) {
              node[r].cnt --;
              node[r].size --;
              return;
          }
          if (node[r].son[0] == 0 || node[r].son[1] == 0) {
              r = node[r].son[0] + node[r].son[1];
          } else {
              int ls = node[r].son[0];
              int rs = node[r].son[1];
              int index = node[ls].rand < node[rs].rand;
              rotate(r, index);
              erase(node[r].son[index], v);
          }
      } else {
          int index = v > node[r].val;
          erase(node[r].son[index], v);
      }
      update(r);
  }
  int get_rank(int r, int v) {
      int size = node[node[r].son[0]].size;
      int cnt = node[r].cnt;
      if (node[r].val == v) return size + 1;
      if (node[r].val > v) return get_rank(node[r].son[0], v);
      if (node[r].val < v) return size + cnt + get_rank(node[r].son[1], v);
  }
  int get_val(int r, int rk) {
      int size = node[node[r].son[0]].size;
      int cnt = node[r].cnt;
      if (rk < size + 1) return get_val(node[r].son[0], rk);
      if (rk >= size + 1 && rk <= size + cnt) return node[r].val;
      if (rk > size + cnt) return get_val(node[r].son[1], rk - size - cnt);
  }
  int get_pre(int r, int v) {
      if (r == 0) return -INF;
      if (node[r].val >= v) return get_pre(node[r].son[0], v);
      else return max(node[r].val, get_pre(node[r].son[1], v));
  }
  int get_suc(int r, int v) {
      if (r == 0) return INF;
      if (node[r].val <= v) return get_suc(node[r].son[1], v);
      else return min(node[r].val, get_suc(node[r].son[0], v));
  }
  int main() {
      srand(time(NULL));
      int n; scanf("%d", &n);
      for (int i = 1; i <= n; i++) {
          int opt, x;
          scanf("%d%d", &opt, &x);
          if (opt == 1) insert(root, x);
          if (opt == 2) erase(root, x);
          if (opt == 3) printf("%d\n", get_rank(root, x)); 
          if (opt == 4) printf("%d\n", get_val(root, x));
          if (opt == 5) printf("%d\n", get_pre(root, x));
          if (opt == 6) printf("%d\n", get_suc(root, x));
      }
      return 0;
  }

  学到的第二个用随机数的算法，所以这个Treap的高度也是有的随机的。但是起码不太可能退化成链状。

• Treap（无旋转）

  #include <bits/stdc++.h>
  using namespace std;
  const int MAXN = 100010;
  const int INF = 0x3f3f3f3f;
  struct Treap {
      int ls, rs;
      int val, rand;
      int size;
  } node[MAXN];
  int tot, root;
  int add_node(int v) {
      int i = ++tot;
      node[i].val = v;
      node[i].rand = rand();
      node[i].ls = node[i].rs = 0;
      node[i].size = 1;
      return i;
  }
  void split(int rt, int& a, int& b, int v) { 
      if (rt == 0) {
          a = b = 0;
          return;
      }
      if (node[rt].val <= v) {
          a = rt;
          split(node[rt].rs, node[a].rs, b, v);
      } else {
          b = rt;
          split(node[rt].ls, a, node[b].ls, v);
      }
      node[rt].size = node[node[rt].ls].size + node[node[rt].rs].size + 1;
  }
  void merge(int& rt, int a, int b) {
      if (a == 0 || b == 0) {
          rt = a + b;
          return;
      }
      if (node[a].rand < node[b].rand) {
          rt = a;
          merge(node[rt].rs, node[a].rs, b);
      } else {
          rt = b;
          merge(node[rt].ls, a, node[b].ls);
      }
      node[rt].size = node[node[rt].ls].size + node[node[rt].rs].size + 1;
  }
  void insert(int& rt, int v) {
      int x = 0, y = 0;
      split(rt, x, y, v);
      merge(x, x, add_node(v));
      merge(rt, x, y);
  }
  void erase(int&rt, int v) {
      int x = 0, y = 0, z = 0;
      split(rt, x, z, v);
      split(x, x, y, v - 1);
      merge(y, node[y].ls, node[y].rs);
      merge(x, x, y);
      merge(rt, x, z);
  }
  int get_rank(int rt, int v) {
      int x = 0, y = 0;
      split(rt, x, y, v - 1);
      int rk = node[x].size + 1;
      merge(rt, x, y);
      return rk;
  }
  int get_val(int rt, int rk) {
      int size = node[node[rt].ls].size;
      if (rk < size + 1) return get_val(node[rt].ls, rk);
      if (rk == size + 1) return node[rt].val;
      if (rk > size + 1) return get_val(node[rt].rs, rk - size - 1);
  }
  int get_pre(int rt, int v) {
      int x = 0, y = 0;
      split(rt, x, y, v - 1);
      int pre = get_val(x, node[x].size);
      merge(rt, x, y);
      return pre;
  }
  int get_suc(int rt, int v) {
      int x = 0, y = 0;
      split(rt, x, y, v);
      int suc = get_val(y, 1);
      merge(rt, x, y);
      return suc;
  }
  int main() {
      srand(time(NULL));
      int n; scanf("%d", &n);
      for (int i = 1; i <= n; i++) {
          int opt, x;
          scanf("%d%d", &opt, &x);
          if (opt == 1) insert(root, x);
          if (opt == 2) erase(root, x);
          if (opt == 3) printf("%d\n", get_rank(root, x));
          if (opt == 4) printf("%d\n", get_val(root, x));
          if (opt == 5) printf("%d\n", get_pre(root, x));
          if (opt == 6) printf("%d\n", get_suc(root, x));
      }
      return 0;
  }

  昨天看懂了带旋转的Treap，今天来写无旋转的Treap，感觉确实是比带旋转的好敲而且好懂，关键就是理解split()和merge()两个核心函数。