写小作业的时候重新复习了一下splay

只支持插入，删除，查k大，查节点数。没有迭代器。

T类型需要重载==和<，要调用拷贝构造函数。

template<class T>

class Splay {

private:

	struct node {

		T v;

		node *ch[2], *fa;

		int size;

		node(const T &a) : size(1), v(a), ch{nullptr, nullptr}, fa(nullptr) {};

		void setc(node *r, int c) {

			ch[c] = r;

			if (r != nullptr) r->fa = this;

		}

		int pl() {

			if (fa != nullptr) return fa->ch[1] == this;

			else return 0;

		}

		void count() {

			size = 1;

			if (ch[0] != nullptr) size += ch[0]->size;

			if (ch[1] != nullptr) size += ch[1]->size;

		}

	};

	node *root;

	void release(node *r) {

		if (r == nullptr) return;

		release(r->ch[0]);

		release(r->ch[1]);

		delete r;

	}

public:

	Splay() : root(nullptr) {}

	~Splay() {

		release(root);

	}

private:

	void rotate(node *r) {

		node *f = r->fa;

		int c = r->pl();

		if (f == root) r->fa = nullptr, root = r;

		else f->fa->setc(r, f->pl());

		f->setc(r->ch[c ^ 1], c);

		r->setc(f, c ^ 1);

		f->count();

	}

	void splay(node *r, node *tar = nullptr) {

		for(; r->fa != tar; rotate(r))

			if (r->fa->fa != tar) rotate(r->fa->pl() == r->pl() ? r->fa : r);

		r->count();

	}

	void rm(node *);

public:

	int size();

	void remove(const T &);

	void insert(const T &);

	T *kth(int);

};

template<class T>

int Splay<T>::size() {

	if (root == nullptr) return 0;

	else return root->size;

}

template<class T>

void Splay<T>::rm(node *r) {

	node *f = nullptr;

	if (r->ch[0] == nullptr && r->ch[1] == nullptr) {

		if (r == root) root = nullptr;

		else {

			f = r->fa;

			r->fa->setc(nullptr, r->pl());

			delete r;

		}

	} else if (r->ch[0] == nullptr || r->ch[1] == nullptr) {

		int c = r->ch[0] == nullptr;

		node *t = r->ch[c];

		while (t->ch[c ^ 1] != nullptr) t = t->ch[c ^ 1];

		splay(t, r->fa);

		r->fa->setc(nullptr, c ^ 1);

		f = r->fa;

		delete r;

	} else {

		node *h = r->ch[0], *t = r->ch[1];

		while (h->ch[1] != nullptr)

			h = h->ch[1];

		while (t->ch[0] != nullptr) t = t->ch[0];

		splay(h, r->fa);

		splay(t, h);

		t->setc(nullptr, 0);

		delete r;

		f = t;

	}

	while (f != nullptr) {

		f->count();

		f = f->fa;

	}

}

template<class T>

void Splay<T>::remove(const T &a) {

	node *r = root;

	while (r != nullptr) {

		if (r->v == a) {rm(r); break;}

		if (a < r->v) r = r->ch[0];

		else r = r->ch[1];

	}

}

template<class T>

void Splay<T>::insert(const T &a) {

	node *r = root;

	node *n = new node(a);

	if (root == nullptr) {

		root = n;

		return;

	}

	while (r != nullptr) {

		if (r->v == a) {delete n; break;}

		if (a < r->v) {

			if (r->ch[0] == nullptr) {

				r->setc(n, 0);

				splay(n);

				break;

			}

			else

				r = r->ch[0];

		} else {

			if (r->ch[1] == nullptr) {

				r->setc(n, 1);

				splay(n);

				break;

			}

			else

				r = r->ch[1];

		}

	}

}

template<class T>

T *Splay<T>::kth(int k) {

	node *r = root;

	while (r != nullptr) {

		int l_size = 0;

		if (r->ch[0] != nullptr) l_size = r->ch[0]->size;

		if (l_size >= k) r = r->ch[0];

		else if (l_size + 1 == k) return &r->v;

		else {

			k -= (l_size + 1);

			r = r->ch[1];

		}

	}

	return nullptr;

}