OJ-Problems-Source/.ACM-Templates/Data-Structures/splay/main.cpp
2016-08-13 23:35:41 +08:00

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// 最大可能的节点数
const int MAXN = 100010;
// 每个打标记的操作就是更新这个节点的信息,然后对子节点打标记
struct Node {
Node *ch[2], *p; int size, value;
bool rev;
inline bool dir(void) {return p->ch[1] == this;}
inline void SetC(Node *x, bool d) {
ch[d] = x; x->p = this;
}
inline void Rev(void) {
swap(ch[0], ch[1]); rev ^= 1;
}
// null永远不会push
inline void Push(void) {
if (rev) {
ch[0]->Rev();
ch[1]->Rev();
rev = 0;
}
}
// null永远不会update
inline void Update(void) {
size = ch[0]->size + ch[1]->size + 1;
}
inline void initInfo(void) {
rev = 0;
}
}Tnull, *null = &Tnull, *data, POOL[MAXN];
class Splay {public:
Node *root;
inline void rotate(Node *x) {
Node *p = x->p; bool d = x->dir();
p->Push(); x->Push();
p->p->SetC(x, p->dir());
p->SetC(x->ch[!d], d);
x->SetC(p, !d);
p->Update();
}
inline void splay(Node *x, Node *G) {
if (G == null) root = x;
while (x->p != G) {
if (x->p->p == G) rotate(x); else {
if (x->dir() == x->p->dir()) {rotate(x->p); rotate(x);}
else {rotate(x); rotate(x);}
}
}
x->Push();
x->Update();
}
inline Node* Renew(int value) {
Node *ret = data++;
ret->ch[0] = ret->ch[1] =ret->p = null;
ret->size = 1; ret->value = value;
ret->initInfo();
return ret;
}
inline Node* getMin(Node *x) {Node *tmp = x; while (tmp->ch[0] != null) tmp = tmp->ch[0]; return tmp;}
inline Node* getMax(Node *x) {Node *tmp = x; while (tmp->ch[1] != null) tmp = tmp->ch[1]; return tmp;}
// 查询第k大
inline Node* getKth(int k) {
Node *tmp = root;
assert(k > 0 && k <= root->size);
while (true) {
tmp->Push();
if (tmp->ch[0]->size + 1 == k) return tmp;
if (tmp->ch[0]->size >= k) tmp = tmp->ch[0];
else k -= tmp->ch[0]->size + 1, tmp = tmp->ch[1];
}
}
// 以下为splay当作平衡树使用
// 查找树中value = v的元素, 返回之后splay
inline Node* find(int v) {
Node *tmp = root;
while (tmp != null) {
tmp->Push();
if (tmp->value == v) return tmp;
if (v < tmp->value) tmp = tmp->ch[0]; else tmp = tmp->ch[1];
}
return null;
}
// 统计有多少元素小于等于v, 当flag = 1时统计多少元素严格小于v, 一定要记得splay最后的那个tmp
inline int Count(int v, bool flag = 0) {
Node *tmp = root, *last = null; int ret = 0;
while (tmp != null) {
tmp->Push();
last = tmp;
if ((!flag && tmp->value > v) || (flag && tmp->value >= v)) {
tmp = tmp->ch[0];
} else ret += tmp->ch[0]->size + 1, tmp = tmp->ch[1];
}
if (last != null) splay(last, null);
return ret;
}
// 删除x这个结点
inline void erase(Node* x) {
splay(x, null);
if (x->ch[0] == null || x->ch[1] == null) {
int d = x->ch[1] != null;
root = x->ch[d]; root->p = null;
return;
}
Node *L = getMax(x->ch[0]), *R = getMax(x->ch[1]);
splay(L, x); splay(R, x);
L->SetC(R, 1); L->p = null; root = L;
L->Update();
}
// 插入一个值为value的节点初始要以Insert(root, null, value)来调用, 返回之后splay
inline Node* Insert(Node *&now, Node* father, int value) {
if (now == null) {
now = Renew(value); now->p = father;
return now;
}
Node *ret;
now->Push();
if (value <= now->value) ret = Insert(now->ch[0], now, value);
else ret = Insert(now->ch[1], now, value);
now->Update();
return ret;
}
// 以下为splay维护序列, 初始要在原序列中放入一个-inf和inf来防止边界条件
// 得到原数列中[l,r]区间对应的结点如果l == r + 1则表示是一个空区间
inline Node* getInterval(int l, int r) {
assert(l <= r + 1);
Node *L = getKth(l), *R = getKth(r + 2);
splay(L, null); splay(R, L);
return R->ch[0];
}
// 删除一段区间[l,r]
inline void eraseInterval(int l, int r) {
getInterval(l, r);
root->ch[1]->ch[0] = null;
root->ch[1]->Update();
root->Update();
}
// 在位置l的后面插入一段区间x (0 <= l <= n)
inline void insertInterval(int l, Node *x) {
Node *L = getKth(l + 1), *R = getKth(l + 2);
splay(L, null); splay(R, L);
R->SetC(x, 0);
R->Update(); L->Update();
}
// 把数列a的[l,r]构建为一个splay
inline Node* Build(int l, int r, int a[]) {
if (l > r) return null;
int mid = (l + r) >> 1;
Node *ret = Renew(a[mid]);
if (l == r) return ret;
ret->SetC(Build(l, mid - 1, a), 0);
ret->SetC(Build(mid + 1, r, a), 1);
ret->Update();
return ret;
}
}T;
void clear(void) {
data = POOL;
T.root = null;
}