#pragma once
#include"../alga/maybe.hpp"
template<typename T,typename E,typename F,typename G,typename H>
class lazy_segment_tree{
using i64=long long;
i64 n;
i64 sz;
struct node;
using np=node*;
struct node{
maybe<T> val=maybe<T>();
maybe<E> lazy=maybe<E>();
np lch=nullptr,rch=nullptr;
node(){}
};
np root=new node();
maybe<T> update(i64 a,i64 b,E x,i64 l,i64 r,np t){
auto f=expand<T,F>(_f);
eval(t,l,r);
//区間外
if(r<=a||b<=l)return t->val;
//全部区間内
if(a<=l&&r<=b){
t->lazy=x;
eval(t,l,r);
return t->val;
}
//一部区間内
return t->val=f(update(a,b,x,l,(l+r)/2,t->lch),update(a,b,x,(l+r)/2,r,t->rch));
}
maybe<T> get(i64 a,i64 b,i64 l,i64 r,np t){
auto f=expand<T,F>(_f);
eval(t,l,r);
//区間外
if(r<=a||b<=l)return maybe<T>();
//全部区間内
if(a<=l&&r<=b)return t->val;
//一部区間内
return f(get(a,b,l,(l+r)/2,t->lch),get(a,b,(l+r)/2,r,t->rch));
}
void eval(np t,i64 l,i64 r){
auto g=expand<E,G>(_g);
if(r-l>1){
if(!t->lch)t->lch=new node();
if(!t->rch)t->rch=new node();
t->lch->lazy=g(t->lch->lazy,t->lazy);
t->rch->lazy=g(t->rch->lazy,t->lazy);
}
t->val=h(t->val,t->lazy,l,r);
t->lazy=maybe<E>();
}
F _f;G _g;H _h;
maybe<T> h(const maybe<T>&s,const maybe<E>&t,int l,int r){
if(t.is_none())return s;
else return maybe<T>(_h(s,t.unwrap(),l,r));
}
public:
lazy_segment_tree(i64 sz,F f=F(),G g=G(),H h=H()):n(1),sz(sz),_f(f),_g(g),_h(h){while(n<sz)n<<=1;}
//0-indexed [a,b)
void update(i64 a,i64 b,E x){update(a,b,x,0,n,root);}
//0-indexed [a,b)
maybe<T> get(i64 a,i64 b){return get(a,b,0,n,root);}
};
#line 2 "alga/maybe.hpp"
#include<cassert>
/**
* @brief Maybe
* @see https://ja.wikipedia.org/wiki/%E3%83%A2%E3%83%8A%E3%83%89_(%E3%83%97%E3%83%AD%E3%82%B0%E3%83%A9%E3%83%9F%E3%83%B3%E3%82%B0)#Maybe%E3%83%A2%E3%83%8A%E3%83%89
*/
template<typename T>
struct maybe{
bool _is_none;
T val;
maybe():_is_none(true){}
maybe(T val):_is_none(false),val(val){}
T unwrap()const{
assert(!_is_none);
return val;
}
T unwrap_or(T e)const{
return _is_none?e:val;
}
bool is_none()const{return _is_none;}
bool is_some()const{return !_is_none;}
};
template<typename T,typename F>
auto expand(F op){
return [&op](const maybe<T>& s,const maybe<T>& t){
if(s.is_none())return t;
if(t.is_none())return s;
return maybe<T>(op(s.unwrap(),t.unwrap()));
};
}
#line 3 "segment_tree/lazy_segment_tree.hpp"
template<typename T,typename E,typename F,typename G,typename H>
class lazy_segment_tree{
using i64=long long;
i64 n;
i64 sz;
struct node;
using np=node*;
struct node{
maybe<T> val=maybe<T>();
maybe<E> lazy=maybe<E>();
np lch=nullptr,rch=nullptr;
node(){}
};
np root=new node();
maybe<T> update(i64 a,i64 b,E x,i64 l,i64 r,np t){
auto f=expand<T,F>(_f);
eval(t,l,r);
//区間外
if(r<=a||b<=l)return t->val;
//全部区間内
if(a<=l&&r<=b){
t->lazy=x;
eval(t,l,r);
return t->val;
}
//一部区間内
return t->val=f(update(a,b,x,l,(l+r)/2,t->lch),update(a,b,x,(l+r)/2,r,t->rch));
}
maybe<T> get(i64 a,i64 b,i64 l,i64 r,np t){
auto f=expand<T,F>(_f);
eval(t,l,r);
//区間外
if(r<=a||b<=l)return maybe<T>();
//全部区間内
if(a<=l&&r<=b)return t->val;
//一部区間内
return f(get(a,b,l,(l+r)/2,t->lch),get(a,b,(l+r)/2,r,t->rch));
}
void eval(np t,i64 l,i64 r){
auto g=expand<E,G>(_g);
if(r-l>1){
if(!t->lch)t->lch=new node();
if(!t->rch)t->rch=new node();
t->lch->lazy=g(t->lch->lazy,t->lazy);
t->rch->lazy=g(t->rch->lazy,t->lazy);
}
t->val=h(t->val,t->lazy,l,r);
t->lazy=maybe<E>();
}
F _f;G _g;H _h;
maybe<T> h(const maybe<T>&s,const maybe<E>&t,int l,int r){
if(t.is_none())return s;
else return maybe<T>(_h(s,t.unwrap(),l,r));
}
public:
lazy_segment_tree(i64 sz,F f=F(),G g=G(),H h=H()):n(1),sz(sz),_f(f),_g(g),_h(h){while(n<sz)n<<=1;}
//0-indexed [a,b)
void update(i64 a,i64 b,E x){update(a,b,x,0,n,root);}
//0-indexed [a,b)
maybe<T> get(i64 a,i64 b){return get(a,b,0,n,root);}
};
segment_tree/lazy_segment_tree.hpp