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Treap.cpp
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Treap.cpp
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mt19937 rng(chrono::steady_clock::now().time_since_epoch().count());
int getRand(int l, int r)
{
uniform_int_distribution<int> uid(l, r);
return uid(rng);
}
struct Treap
{
struct data
{
int priority, val, cnt;
data *l, *r;
data()
{
val = 0, cnt = 0, l = NULL, r = NULL;
}
data (int _val)
{
val = _val, cnt = 1;
l = NULL, r = NULL;
priority = getRand(1, 2e9);
}
};
typedef struct data* node;
node head;
Treap(): head(0) {}
int cnt(node cur)
{
return cur ? cur->cnt : 0;
}
void updateCnt(node cur)
{
if(cur)
cur->cnt = cnt(cur->l) + cnt(cur->r) + 1;
}
void push(node cur) //Lazy Propagation
{
;
}
void combine(node &cur, node l, node r)
{
if(!l)
{
cur = r;
return;
}
if(!r)
{
cur = l;
return;
}
//Merge Operations like in segment tree
}
void reset(node &cur) //To reset other fields of cur except value and cnt
{
if(!cur)
return;
}
void operation(node &cur)
{
if(!cur)
return;
reset(cur);
combine(cur, cur->l, cur);
combine(cur, cur, cur->r);
}
void splitPos(node cur, node &l, node &r, int k, int add = 0)
{
if(!cur)
return void(l = r = 0);
push(cur);
int idx = add + cnt(cur->l);
if(idx <= k)
splitPos(cur->r, cur->r, r, k, idx + 1), l = cur;
else
splitPos(cur->l, l, cur->l, k, add), r = cur;
updateCnt(cur);
operation(cur);
}
void split(node cur, node &l, node &r, int k)
{
if(!cur)
return void(l = r = 0);
push(cur);
int idx = cur -> val;
if(idx <= k)
split(cur->r, cur->r, r, k), l = cur;
else
split(cur->l, l, cur->l, k), r = cur;
updateCnt(cur);
operation(cur);
}
void merge(node &cur, node l, node r)
{
push(l);
push(r);
if(!l || !r)
cur = l ? l : r;
else if(l->priority > r->priority)
merge(l->r, l->r, r), cur = l;
else
merge(r->l, l, r->l), cur = r;
updateCnt(cur);
operation(cur);
}
void insert(int val)
{
if(!head)
{
head = new data(val);
return;
}
node l, r, mid, mid2, rr;
mid = new data(val);
split(head, l, r, val - 1);
merge(l, l, mid);
split(r, mid2, rr, val);
merge(head, l, rr);
}
void erase(int val)
{
node l, r, mid;
split(head, l, r, val - 1);
split(r, mid, r, val);
merge(head, l, r);
}
void inorder(node cur)
{
if(!cur)
return;
push(cur);
inorder(cur->l);
cout<<cur->val<<" ";
inorder(cur->r);
}
void inorder()
{
inorder(head);
cout<<endl;
}
void clear(node cur)
{
if(!cur)
return;
clear(cur->l), clear(cur->r);
delete cur;
}
void clear()
{
clear(head);
}
int find_by_order(int x) //1 indexed
{
if(!x)
return -1;
x--;
node l, r, mid;
splitPos(head, l, r, x - 1);
splitPos(r, mid, r, 0);
int ans = -1;
if(cnt(mid) == 1)
ans = mid->val;
merge(r, mid, r);
merge(head, l, r);
return ans;
}
int order_of_key(int val) //1 indexed
{
node l, r, mid;
split(head, l, r, val - 1);
split(r, mid, r, val);
int ans = -1;
if(cnt(mid) == 1)
ans = 1 + cnt(l);
merge(r, mid, r);
merge(head, l, r);
return ans;
}
};
//Problem 1: https://www.spoj.com/problems/ALLIN1/
//Solution 1: http://p.ip.fi/DOgq