結果
| 問題 |
No.1467 Selling Cars
|
| コンテスト | |
| ユーザー |
 tute7627
|
| 提出日時 | 2024-09-26 21:50:47 |
| 言語 | C++17 (gcc 13.3.0 + boost 1.87.0) |
| 結果 |
MLE
|
| 実行時間 | - |
| コード長 | 22,182 bytes |
| コンパイル時間 | 3,189 ms |
| コンパイル使用メモリ | 233,412 KB |
| 最終ジャッジ日時 | 2025-02-24 12:56:27 |
|
ジャッジサーバーID (参考情報) |
judge4 / judge5 |
(要ログイン)
| ファイルパターン | 結果 |
|---|---|
| sample | -- * 2 |
| other | MLE * 1 -- * 30 |
ソースコード
//#define _GLIBCXX_DEBUG
//#pragma GCC target("avx2")
//#pragma GCC optimize("O3")
//#pragma GCC optimize("unroll-loops")
#include<bits/stdc++.h>
using namespace std;
#ifdef LOCAL
#include <debug_print.hpp>
#define OUT(...) debug_print::multi_print(#__VA_ARGS__, __VA_ARGS__)
#else
#define OUT(...) (static_cast<void>(0))
#endif
#define endl '\n'
#define lfs cout<<fixed<<setprecision(15)
#define ALL(a) (a).begin(),(a).end()
#define ALLR(a) (a).rbegin(),(a).rend()
#define UNIQUE(a) (a).erase(unique((a).begin(),(a).end()),(a).end())
#define spa << " " <<
#define fi first
#define se second
#define MP make_pair
#define MT make_tuple
#define PB push_back
#define EB emplace_back
#define rep(i,n,m) for(ll i = (n); i < (ll)(m); i++)
#define rrep(i,n,m) for(ll i = (ll)(m) - 1; i >= (ll)(n); i--)
namespace template_tute{
using ll = long long;
using ld = long double;
const ll MOD1 = 1e9+7;
const ll MOD9 = 998244353;
const ll INF = 1e18;
using P = pair<ll, ll>;
template<typename T> using PQ = priority_queue<T>;
template<typename T> using QP = priority_queue<T,vector<T>,greater<T>>;
template<typename T1, typename T2>bool chmin(T1 &a,T2 b){if(a>b){a=b;return true;}else return false;}
template<typename T1, typename T2>bool chmax(T1 &a,T2 b){if(a<b){a=b;return true;}else return false;}
ll median(ll a,ll b, ll c){return a+b+c-max<ll>({a,b,c})-min<ll>({a,b,c});}
void ans1(bool x){if(x) cout<<"Yes"<<endl;else cout<<"No"<<endl;}
void ans2(bool x){if(x) cout<<"YES"<<endl;else cout<<"NO"<<endl;}
void ans3(bool x){if(x) cout<<"Yay!"<<endl;else cout<<":("<<endl;}
template<typename T1,typename T2>void ans(bool x,T1 y,T2 z){if(x)cout<<y<<endl;else cout<<z<<endl;}
template<typename T1,typename T2,typename T3>void anss(T1 x,T2 y,T3 z){ans(x!=y,x,z);};
template<typename T>void debug(const T &v,ll h,ll w,string sv=" "){for(ll i=0;i<h;i++){cout<<v[i][0];for(ll j=1;j<w;j++)cout<<sv<<v[i][j];cout<<endl;}};
template<typename T>void debug(const T &v,ll n,string sv=" "){if(n!=0)cout<<v[0];for(ll i=1;i<n;i++)cout<<sv<<v[i];cout<<endl;};
template<typename T>void debug(const vector<T>&v){debug(v,v.size());}
template<typename T>void debug(const vector<vector<T>>&v){for(auto &vv:v)debug(vv,vv.size());}
template<typename T>void debug(stack<T> st){while(!st.empty()){cout<<st.top()<<" ";st.pop();}cout<<endl;}
template<typename T>void debug(queue<T> st){while(!st.empty()){cout<<st.front()<<" ";st.pop();}cout<<endl;}
template<typename T>void debug(deque<T> st){while(!st.empty()){cout<<st.front()<<" ";st.pop_front();}cout<<endl;}
template<typename T>void debug(PQ<T> st){while(!st.empty()){cout<<st.top()<<" ";st.pop();}cout<<endl;}
template<typename T>void debug(QP<T> st){while(!st.empty()){cout<<st.top()<<" ";st.pop();}cout<<endl;}
template<typename T>void debug(const set<T>&v){for(auto z:v)cout<<z<<" ";cout<<endl;}
template<typename T>void debug(const multiset<T>&v){for(auto z:v)cout<<z<<" ";cout<<endl;}
template<typename T,size_t size>void debug(const array<T, size> &a){for(auto z:a)cout<<z<<" ";cout<<endl;}
template<typename T,typename V>void debug(const map<T,V>&v){for(auto z:v)cout<<"["<<z.first<<"]="<<z.second<<",";cout<<endl;}
template<typename T>vector<vector<T>>vec(ll x, ll y, T w){vector<vector<T>>v(x,vector<T>(y,w));return v;}
vector<ll>dx={1,-1,0,0,1,1,-1,-1};vector<ll>dy={0,0,1,-1,1,-1,1,-1};
template<typename T>vector<T> make_v(size_t a,T b){return vector<T>(a,b);}
template<typename... Ts>auto make_v(size_t a,Ts... ts){return vector<decltype(make_v(ts...))>(a,make_v(ts...));}
template<typename T1, typename T2>ostream &operator<<(ostream &os, const pair<T1, T2>&p){return os << "(" << p.first << "," << p.second << ")";}
template<typename T>ostream &operator<<(ostream &os, const vector<T> &v){os<<"[";for(auto &z:v)os << z << ",";os<<"]"; return os;}
template<typename T>void rearrange(vector<int>&ord, vector<T>&v){
auto tmp = v;
for(int i=0;i<tmp.size();i++)v[i] = tmp[ord[i]];
}
template<typename Head, typename... Tail>void rearrange(vector<int>&ord,Head&& head, Tail&&... tail){
rearrange(ord, head);
rearrange(ord, tail...);
}
template<typename T> vector<int> ascend(const vector<T>&v){
vector<int>ord(v.size());iota(ord.begin(),ord.end(),0);
sort(ord.begin(),ord.end(),[&](int i,int j){return make_pair(v[i],i)<make_pair(v[j],j);});
return ord;
}
template<typename T> vector<int> descend(const vector<T>&v){
vector<int>ord(v.size());iota(ord.begin(),ord.end(),0);
sort(ord.begin(),ord.end(),[&](int i,int j){return make_pair(v[i],-i)>make_pair(v[j],-j);});
return ord;
}
template<typename T> vector<T> inv_perm(const vector<T>&ord){
vector<T>inv(ord.size());
for(int i=0;i<ord.size();i++)inv[ord[i]] = i;
return inv;
}
ll FLOOR(ll n,ll div){assert(div>0);return n>=0?n/div:(n-div+1)/div;}
ll CEIL(ll n,ll div){assert(div>0);return n>=0?(n+div-1)/div:n/div;}
ll digitsum(ll n){ll ret=0;while(n){ret+=n%10;n/=10;}return ret;}
ll modulo(ll n,ll d){return (n%d+d)%d;};
template<typename T>T min(const vector<T>&v){return *min_element(v.begin(),v.end());}
template<typename T>T max(const vector<T>&v){return *max_element(v.begin(),v.end());}
template<typename T>T acc(const vector<T>&v){return accumulate(v.begin(),v.end(),T(0));};
template<typename T>T reverse(const T &v){return T(v.rbegin(),v.rend());};
//mt19937 mt(chrono::steady_clock::now().time_since_epoch().count());
int popcount(ll x){return __builtin_popcountll(x);};
int poplow(ll x){return __builtin_ctzll(x);};
int pophigh(ll x){return 63 - __builtin_clzll(x);};
template<typename T>T poll(queue<T> &q){auto ret=q.front();q.pop();return ret;};
template<typename T>T poll(priority_queue<T> &q){auto ret=q.top();q.pop();return ret;};
template<typename T>T poll(QP<T> &q){auto ret=q.top();q.pop();return ret;};
template<typename T>T poll(stack<T> &s){auto ret=s.top();s.pop();return ret;};
ll MULT(ll x,ll y){if(LLONG_MAX/x<=y)return LLONG_MAX;return x*y;}
ll POW2(ll x, ll k){ll ret=1,mul=x;while(k){if(mul==LLONG_MAX)return LLONG_MAX;if(k&1)ret=MULT(ret,mul);mul=MULT(mul,mul);k>>=1;}return ret;}
ll POW(ll x, ll k){ll ret=1;for(int i=0;i<k;i++){if(LLONG_MAX/x<=ret)return LLONG_MAX;ret*=x;}return ret;}
std::ostream &operator<<(std::ostream &dest, __int128_t value) {
std::ostream::sentry s(dest);
if (s) {
__uint128_t tmp = value < 0 ? -value : value;
char buffer[128];
char *d = std::end(buffer);
do {
--d;
*d = "0123456789"[tmp % 10];
tmp /= 10;
} while (tmp != 0);
if (value < 0) {
--d;
*d = '-';
}
int len = std::end(buffer) - d;
if (dest.rdbuf()->sputn(d, len) != len) {
dest.setstate(std::ios_base::badbit);
}
}
return dest;
}
namespace converter{
int dict[500];
const string lower="abcdefghijklmnopqrstuvwxyz";
const string upper="ABCDEFGHIJKLMNOPQRSTUVWXYZ";
const string digit="0123456789";
const string digit1="123456789";
void regi_str(const string &t){
for(int i=0;i<t.size();i++){
dict[t[i]]=i;
}
}
void regi_int(const string &t){
for(int i=0;i<t.size();i++){
dict[i]=t[i];
}
}
vector<int>to_int(const string &s,const string &t){
regi_str(t);
vector<int>ret(s.size());
for(int i=0;i<s.size();i++){
ret[i]=dict[s[i]];
}
return ret;
}
vector<int>to_int(const string &s){
auto t=s;
sort(t.begin(),t.end());
t.erase(unique(t.begin(),t.end()),t.end());
return to_int(s,t);
}
vector<vector<int>>to_int(const vector<string>&s,const string &t){
regi_str(t);
vector<vector<int>>ret(s.size(),vector<int>(s[0].size()));
for(int i=0;i<s.size();i++){
for(int j=0;j<s[0].size();j++){
ret[i][j]=dict[s[i][j]];
}
}
return ret;
}
vector<vector<int>>to_int(const vector<string>&s){
string t;
for(int i=0;i<s.size();i++){
t+=s[i];
}
sort(t.begin(),t.end());t.erase(unique(t.begin(),t.end()),t.end());
return to_int(s,t);
}
string to_str(const vector<int>&s,const string &t){
regi_int(t);
string ret;
for(auto z:s)ret+=dict[z];
return ret;
}
vector<string> to_str(const vector<vector<int>>&s,const string &t){
regi_int(t);
vector<string>ret(s.size());
for(int i=0;i<s.size();i++){
for(auto z:s[i])ret[i]+=dict[z];
}
return ret;
}
}
template< typename T = int >
struct edge {
int to;
T cost;
int id;
edge():to(-1),id(-1){};
edge(int to, T cost = 1, int id = -1):to(to), cost(cost), id(id){}
operator int() const { return to; }
};
template<typename T>
using Graph = vector<vector<edge<T>>>;
template<typename T>
Graph<T>revgraph(const Graph<T> &g){
Graph<T>ret(g.size());
for(int i=0;i<g.size();i++){
for(auto e:g[i]){
int to = e.to;
e.to = i;
ret[to].push_back(e);
}
}
return ret;
}
template<typename T>
Graph<T> readGraph(int n,int m,int indexed=1,bool directed=false,bool weighted=false){
Graph<T> ret(n);
for(int es = 0; es < m; es++){
int u,v;
T w=1;
cin>>u>>v;u-=indexed,v-=indexed;
if(weighted)cin>>w;
ret[u].emplace_back(v,w,es);
if(!directed)ret[v].emplace_back(u,w,es);
}
return ret;
}
template<typename T>
Graph<T> readParent(int n,int indexed=1,bool directed=true){
Graph<T>ret(n);
for(int i=1;i<n;i++){
int p;cin>>p;
p-=indexed;
ret[p].emplace_back(i);
if(!directed)ret[i].emplace_back(p);
}
return ret;
}
}
using namespace template_tute;
namespace GeneralSlopeTrick{
using I = ll;
const I minf = -1.5e9; //無限小の座標
const I max_identity = minf * 2; //座標の単位元
// minf での値はオーバーフローしても問題ない(はず)
//base: https://nyaannyaan.github.io/library/rbst/lazy-reversible-rbst.hpp
template <typename Node>
struct RBSTBase {
using Ptr = Node *;
template <typename... Args>
inline Ptr my_new(Args... args) {
return new Node(args...);
}
inline void my_del(Ptr t) { delete t; }
inline Ptr make_tree() const { return nullptr; }
// for avoiding memory leak, activate below
/*
using Ptr = shared_ptr<Node>;
template <typename... Args>
inline Ptr my_new(Args... args) {
return make_shared<Node>(args...);
}
inline void my_del(Ptr t) {}
Ptr make_tree() {return Ptr();}
*/
int size(Ptr t) const { return count(t); }
using Key = decltype(Node::key);
//checkを満たす境界位置 0~size
template<typename check>
int find_first(Ptr t, check &C) {
int ret = 0;
Key now;
if (!C(sum(t)))return count(t);
while(1){
if(!t)return ret;
push(t);
if(t->l)push(t->l);
if(C(f(now, sum(t->l)))){
t = t->l;
}
else{
now = f(now, sum(t->l));
ret += count(t->l);
now = f(now, t->key);
if(C(now))return ret;
ret++;
t = t->r;
}
}
}
Ptr merge(Ptr l, Ptr r) {
if (!l || !r) return l ? l : r;
if (int((rng() * (l->cnt + r->cnt)) >> 32) < l->cnt) {
push(l);
l->r = merge(l->r, r);
return update(l);
} else {
push(r);
r->l = merge(l, r->l);
return update(r);
}
}
pair<Ptr, Ptr> split(Ptr t, int k) {
if (!t) return {nullptr, nullptr};
push(t);
if (k <= count(t->l)) {
auto s = split(t->l, k);
t->l = s.second;
return {s.first, update(t)};
} else {
auto s = split(t->r, k - count(t->l) - 1);
t->r = s.first;
return {update(t), s.second};
}
}
Ptr build(int l, int r, const vector<decltype(Node::key)> &v) {
if (l + 1 == r) return my_new(v[l]);
int m = (l + r) >> 1;
Ptr pm = my_new(v[m]);
if (l < m) pm->l = build(l, m, v);
if (m + 1 < r) pm->r = build(m + 1, r, v);
return update(pm);
}
Ptr build(const vector<decltype(Node::key)> &v) {
return build(0, (int)v.size(), v);
}
template <typename... Args>
void insert(Ptr &t, int k, const Args &... args) {
auto x = split(t, k);
t = merge(merge(x.first, my_new(args...)), x.second);
}
template <typename... Args>
void push_back(Ptr &t, const Args &... args) {
t = merge(t, my_new(args...));
}
template <typename... Args>
void push_front(Ptr &t, const Args &... args) {
t = merge(my_new(args...), t);
}
void erase(Ptr &t, int k) {
auto x = split(t, k);
auto y = split(x.second, 1);
my_del(y.first);
t = merge(x.first, y.second);
}
inline int count(const Ptr t) const { return t ? t->cnt : 0; }
inline Key sum(const Ptr t) const { return t ? t->sum : Key(); }
//protected:
static uint64_t rng() {
static uint64_t x_ = 88172645463325252ULL;
return x_ ^= x_ << 7, x_ ^= x_ >> 9, x_ & 0xFFFFFFFFull;
}
virtual void push(Ptr) = 0;
virtual Ptr update(Ptr) = 0;
};
template <typename T, typename E>
struct LazyRBSTNode {
typename RBSTBase<LazyRBSTNode>::Ptr l, r;
T key, sum;
E lazy;
int cnt;
LazyRBSTNode(const T &t = T(), const E &e = E())
: l(), r(), key(t), sum(t), lazy(e), cnt(1){}
};
template <typename T, typename E, T (*f)(T, T), T (*g)(T, E), E (*h)(E, E)>
struct LazyRBST : RBSTBase<LazyRBSTNode<T, E>> {
using Node = LazyRBSTNode<T, E>;
using base = RBSTBase<LazyRBSTNode<T, E>>;
using base::merge;
using base::split;
using typename base::Ptr;
LazyRBST() = default;
T fold(Ptr &t, int a, int b) {
auto x = split(t, a);
auto y = split(x.second, b - a);
auto ret = sum(y.first);
t = merge(x.first, merge(y.first, y.second));
return ret;
}
void apply(Ptr &t, int a, int b, const E &e) {
auto x = split(t, a);
auto y = split(x.second, b - a);
propagate(y.first, e);
t = merge(x.first, merge(y.first, y.second));
}
inline T sum(const Ptr t) const { return t ? t->sum : T(); }
//protected:
Ptr update(Ptr t) override {
push(t);
t->cnt = 1;
t->sum = t->key;
if (t->l) t->cnt += t->l->cnt, t->sum = f(t->l->sum, t->sum);
if (t->r) t->cnt += t->r->cnt, t->sum = f(t->sum, t->r->sum);
return t;
}
void push(Ptr t) override {
if (t->lazy != E()) {
if (t->l) propagate(t->l, t->lazy);
if (t->r) propagate(t->r, t->lazy);
t->lazy = E();
}
}
void propagate(Ptr t, const E &x) {
t->lazy = h(t->lazy, x);
t->key = g(t->key, x);
t->sum = g(t->sum, x);
}
};
struct T{
I pos_mx, grad, sum;
T():pos_mx(max_identity), grad(0), sum(0){}
T(I pos_mx, I grad, I sum): pos_mx(pos_mx), grad(grad), sum(sum){}
};
using E = I;
T f(T a,T b){
return T(max(a.pos_mx, b.pos_mx), a.grad + b.grad, a.sum + b.sum);
}
T g(T a,E b){
return T(a.pos_mx + b, a.grad, a.sum + a.grad * b);
}
E h(E a,E b){
return a + b;
}
struct SlopeTrick{
LazyRBST<T, E, f, g, h>bbst;
using Ptr = LazyRBST<T, E, f, g, h>::Node*;
Ptr root;
I minf_val, minf_grad;
SlopeTrick(){
root = bbst.build(vector<T>({T(0, 0, 0)}));
minf_val = 0;
minf_grad = 0;
}
void insert(I pos,I val){
auto check = [&](T s){
return s.pos_mx > pos;
};
int idx = bbst.find_first(root, check);
bbst.insert(root, idx, T(pos, val, pos * val));
}
void add_all(I a){
minf_val += a;
}
// add c(x-a)_+ _____/
void add_xma(I a, I c = 1){
insert(a, c);
}
// add c(a-x)_+ \_____
void add_amx(I a, I c = 1) {
minf_grad -= c;
minf_val += c * (a - minf);
insert(a, c);
}
// add |x-a| \____/
void add_abs(I a, I c = 1) { add_xma(a, c), add_amx(a, c); }
void add_abs_fast(I a, I c = 1) {
minf_grad -= c;
minf_val += c * (a - minf);
insert(a, 2*c);
}
pair<Ptr, Ptr>zero_split(){
auto check = [&](T s){
return s.grad + minf_grad >= 0;
};
int idx = bbst.find_first(root, check);
auto [l, r] = bbst.split(root, idx + 1);
return make_pair(l, r);
}
tuple<Ptr, Ptr, Ptr>zero_split3(){
auto check = [&](T s){
return s.grad + minf_grad >= 0;
};
int idx = bbst.find_first(root, check);
auto [l, r] = bbst.split(root, idx);
auto [rl, rr] = bbst.split(r, 1);
return make_tuple(l, rl, rr);
}
// chmin right side \_/ -> \__
void chmin_right() {
auto [l, m, r] = zero_split3();
auto lsum = bbst.sum(l);
m->key.grad = -minf_grad - lsum.grad;
m->key.sum = (-minf_grad - lsum.grad) * m->key.pos_mx;
m = bbst.update(m);
root = bbst.merge(l, m);
}
// chmin left side \_/ -> __/
void chmin_left() {
auto [l, m, r] = zero_split3();
auto lsum = bbst.sum(l);
minf_val += (minf_grad + lsum.grad) * m->key.pos_mx - (minf_grad * minf + lsum.sum);
m->key.grad += minf_grad + lsum.grad;
m->key.sum = m->key.grad * m->key.pos_mx;
minf_grad = 0;
m = bbst.update(m);
root = bbst.merge(m, r);
}
// move left with cost c
// limit が -1 なら無限、そうでなければ limit だけ左に移動できる
// 最小値の位置が無限遠になるときはすべて move系/add系で処理する(他は壊れがち)
void move_left(I c, I limit = -1){
assert(limit >= -1);
if(minf_grad >= -c)return;
auto root_grad = bbst.sum(root).grad;
if(minf_grad + root_grad < -c){
assert(limit != -1); // 無限に小さくなる
bbst.propagate(root, -limit);
minf_val += (minf_grad + c) * limit;
return;
}
auto check = [&](T s){
return s.grad >= -c - minf_grad;
};
int idx = bbst.find_first(root, check);
auto [l, r] = bbst.split(root, idx);
auto [rl, rr] = bbst.split(r, 1);
auto lsum=bbst.sum(l);
I dec = -c - (lsum.grad + minf_grad);
rl->key.grad -= dec;
rl->key.sum = rl->key.grad * rl->key.pos_mx;
rl = bbst.update(rl);
if(limit == -1){
minf_grad = -c;
minf_val -= lsum.sum - minf * lsum.grad;
minf_val -= (rl->key.pos_mx - minf) * dec;
}
else{
minf_val -= (-c - minf_grad) * limit;
bbst.push_back(l, T(rl->key.pos_mx, dec, dec * rl->key.pos_mx));
bbst.propagate(l, -limit);
rl = bbst.merge(l, rl);
}
root = bbst.merge(rl, rr);
}
// move right with cost c
// limit が -1 なら無限、そうでなければ limit だけ右に移動できる
void move_right(I c, I limit = -1){
assert(limit >= -1);
if(minf_grad + root->sum.grad <= c)return;
if(minf_grad > c){
assert(limit != -1); // 無限に小さくなる
bbst.propagate(root, limit);
minf_val -= (minf_grad - c) * limit;
return;
}
auto check = [&](T s){
return s.grad + minf_grad >= c;
};
int idx = bbst.find_first(root, check);
auto [l, r] = bbst.split(root, idx);
auto [rl, rr] = bbst.split(r, 1);
auto rrsum=bbst.sum(rr);
I dec = (minf_grad + bbst.sum(l).grad + rl->key.grad) - c;
rl->key.grad -= dec;
rl->key.sum = rl->key.grad * rl->key.pos_mx;
rl = bbst.update(rl);
if(limit != -1){
bbst.push_front(rr, T(rl->key.pos_mx, dec, dec * rl->key.pos_mx));
bbst.propagate(rr, limit);
rl = bbst.merge(rl, rr);
}
root = bbst.merge(l, rl);
}
void shift(I k){
bbst.propagate(root, k);
minf_val -= k * minf_grad;
}
I get_min(){
auto [l, r] = zero_split();
auto lsum = bbst.sum(l);
I ret = minf_val + (minf_grad + lsum.grad) * lsum.pos_mx - (minf_grad * minf + lsum.sum);
root = bbst.merge(l, r);
return ret;
}
I calc(I pos){
auto check = [&](T s){
return s.pos_mx > pos;
};
int idx = bbst.find_first(root, check);
auto [l, r] = bbst.split(root, idx);
auto lsum = bbst.sum(l);
I ret = minf_val + (minf_grad + lsum.grad) * pos - (minf_grad * minf + lsum.sum);
root = bbst.merge(l, r);
return ret;
}
void slide_min(I a,I b){
assert(a <= b);
shift(a);
auto [l, m, r] = zero_split3();
auto lsum = bbst.sum(l);
I nxt_grad = m->key.grad - (-minf_grad - lsum.grad);
m->key.grad -= nxt_grad;
m->key.sum = m->key.grad * m->key.pos_mx;
m = bbst.update(m);
bbst.insert(m, 1, T(m->key.pos_mx + b - a, nxt_grad, (m->key.pos_mx + b - a) * nxt_grad));
if(r)bbst.propagate(r, b - a);
root = bbst.merge(m, r);root = bbst.merge(l, root);
}
void print_grad(){
for(int i=0;i<bbst.count(root);i++){
auto s = bbst.fold(root, i, i+1);
cout << "[" << s.pos_mx << "]=" << s.grad << endl;
}
}
void print(I l,I r){
for(I i=l;i<=r;i++){
cout<<calc(i)<<" ";
}
cout<<endl;
}
};
}
void solve(){
ll res=0,buf=0;
bool judge = true;
ll m,n;cin>>m>>n;
vector<ll>a(m);
rep(i,0,m)cin>>a[i];
vector<ll>b(n);
rep(i,0,n)cin>>b[i];
vector<P>p;
rep(i,0,m)p.EB(a[i],0);
rep(i,0,n)p.EB(b[i],1);
sort(ALL(p));
rep(k,1,m+1){
GeneralSlopeTrick::SlopeTrick st;
st.add_abs_fast(0,1e18);
ll cnt=0;
rep(i,0,p.size()){
if(p[i].se==0){
cnt++;
}
else{
st.move_right(0,k);
}
if(i+1<p.size())st.add_abs_fast(cnt,p[i+1].fi-p[i].fi);
//if(k==1)st.print(0,4);
}
cout<<st.calc(m)<<endl;
}
}
int main(){
cin.tie(nullptr);
ios_base::sync_with_stdio(false);
ll res=0,buf=0;
bool judge = true;
int T = 1;
//cin>>T;
while(T--){
solve();
}
return 0;
}