#include "train.h"
#include <bits/stdc++.h>
using namespace std;
const int lim = 1000;
const int inf1 = 1e9 + 20;
const long long inf2 = 1e18L + 20;
struct planet {
int L, R;
long long cost;
planet(long long _cost): L(-1), R(-2), cost(_cost) {};
};
struct train {
int L, R, u, v;
long long cost;
int low;
train(int _L, int _R, int _u, int _v, long long _cost): L(_L), R(_R), u(_u), v(_v), cost(_cost), low(-1) {};
};
struct meal {
int L, R;
meal(int _L, int _R): L(_L), R(_R) {};
};
struct event {
int time, type, id;
event(int _time, int _type, int _id): time(_time), type(_type), id(_id) {};
};
bool operator<(train &t1, train &t2) {
if (t1.v != t2.v) {
return t1.v < t2.v;
}
else {
return t1.R < t2.R;
}
}
bool operator<(meal &m1, meal &m2) {
return m1.L > m2.L;
}
bool operator<(event &e1, event &e2) {
if (e1.time != e2.time) {
return e1.time < e2.time;
}
else {
return e1.type < e2.type;
}
}
bool operator<(meal &m, int x) {
return m.L > x;
}
bool operator<(train &t, int x) {
return t.R <= x;
}
struct fenwick_tree {
vector<int> sum;
int N;
fenwick_tree(int _N) {
N = _N;
sum.resize(N + 1);
}
void update(int pos) {
pos++;
for (int i = pos; i <= N; i += i & (-i)) {
sum[i]++;
}
}
int get(int pos) {
pos++;
int res = 0;
for (int i = pos; i > 0; i -= i & (-i)) {
res += sum[i];
}
return res;
}
};
struct segment_tree {
struct node {
long long min;
long long lazy;
node(): min(inf2), lazy(0) {};
};
vector<node> tree;
int N;
void init(int _N) {
N = _N;
tree.resize(N << 2);
}
void shift(int id, long long delta) {
tree[id].min += delta;
tree[id].lazy += delta;
}
void push(int id) {
shift(id << 1, tree[id].lazy);
shift(id << 1 | 1, tree[id].lazy);
tree[id].lazy = 0;
}
void merge(int id) {
tree[id].min = min(tree[id << 1].min, tree[id << 1 | 1].min);
}
void update_pos(int id, int tl, int tr, int pos, long long val) {
if (tl == tr) {
tree[id].min = val;
tree[id].lazy = 0;
return;
}
push(id);
int tm = (tl + tr) >> 1;
if (pos <= tm) {
update_pos(id << 1, tl, tm, pos, val);
}
else {
update_pos(id << 1 | 1, tm + 1, tr, pos, val);
}
merge(id);
}
void update_range(int id, int tl, int tr, int ql, int qr, long long delta) {
if (tl == ql && tr == qr) {
shift(id, delta);
return;
}
push(id);
int tm = (tl + tr) >> 1;
if (qr <= tm) {
update_range(id << 1, tl, tm, ql, qr, delta);
}
else if (ql >= tm + 1) {
update_range(id << 1 | 1, tm + 1, tr, ql, qr, delta);
}
else {
update_range(id << 1, tl, tm, ql, tm, delta);
update_range(id << 1 | 1, tm + 1, tr, tm + 1, qr, delta);
}
merge(id);
}
long long get_range(int id, int tl, int tr, int ql, int qr) {
if (tl == ql && tr == qr) {
return tree[id].min;
}
push(id);
int tm = (tl + tr) >> 1;
if (qr <= tm) {
return get_range(id << 1, tl, tm, ql, qr);
}
else if (ql >= tm + 1) {
return get_range(id << 1 | 1, tm + 1, tr, ql, qr);
}
else {
return min(get_range(id << 1, tl, tm, ql, tm), get_range(id << 1 | 1, tm + 1, tr, tm + 1, qr));
}
}
void update_pos(int pos, long long val) {
pos++;
update_pos(1, 1, N, pos, val);
}
void update_pref(int r, long long delta) {
if (r < 0) {
return;
}
r++;
update_range(1, 1, N, 1, r, delta);
}
long long get_pref(int r) {
if (r < 0) {
return inf2;
}
r++;
return min(get_range(1, 1, N, 1, r), inf2);
}
};
long long solve(int N, int M, int W, vector<int> T, vector<int> X, vector<int> Y, vector<int> A, vector<int> B, vector<int> C, vector<int> L, vector<int> R) {
vector<planet> planets;
for (int i = 0; i < N; i++) {
planets.emplace_back(T[i]);
}
int planet_cnt = planets.size();
vector<train> trains;
for (int i = 0; i < M; i++) {
trains.emplace_back(A[i], B[i], X[i], Y[i], C[i]);
}
trains.emplace_back(-1, 0, 0, 0, 0);
trains.emplace_back(inf1, inf1 + 1, planet_cnt - 1, planet_cnt - 1, 0);
sort(trains.begin(), trains.end());
int train_cnt = trains.size();
for (int i = 0; i < train_cnt; i++) {
if (i == 0 || trains[i].v != trains[i - 1].v) {
planets[trains[i].v].L = i;
}
if (i == train_cnt - 1 || trains[i].v != trains[i + 1].v) {
planets[trains[i].v].R = i;
}
}
vector<meal> meals;
for (int i = 0; i < W; i++) {
meals.emplace_back(L[i], R[i]);
}
sort(meals.begin(), meals.end());
int meal_cnt = meals.size();
vector<event> events;
for (int id = 0; id < train_cnt; id++) {
events.emplace_back(trains[id].L, 0, id);
}
for (int id = 0; id < meal_cnt; id++) {
events.emplace_back(meals[id].R, 1, id);
}
sort(events.begin(), events.end());
vector<bool> is_heavy(planet_cnt);
vector<int> heavy;
vector<segment_tree> seg(planet_cnt);
for (int i = 0; i < planet_cnt; i++) {
int sz = planets[i].R - planets[i].L + 1;
if (sz > lim) {
is_heavy[i] = true;
heavy.push_back(i);
seg[i].init(sz);
}
}
for (auto &t: trains) {
t.low = lower_bound(meals.begin(), meals.end(), t.R) - meals.begin() - 1;
}
vector<long long> dp(train_cnt, inf2);
fenwick_tree fen(meal_cnt);
for (auto &e: events) {
int type = e.type;
int id = e.id;
if (type == 0) {
if (id == 0) {
dp[id] = 0;
}
else {
int u = trains[id].u;
if (is_heavy[u]) {
int pos = lower_bound(trains.begin() + planets[u].L, trains.begin() + planets[u].R + 1, trains[id].L) - trains.begin() - 1 - planets[u].L;
dp[id] = min(seg[u].get_pref(pos) + trains[id].cost, inf2);
}
else {
for (int i = planets[u].L; i <= planets[u].R; i++) {
if (trains[i].R > trains[id].L) {
break;
}
dp[id] = min(dp[id], dp[i] + planets[u].cost * fen.get(trains[i].low) + trains[id].cost);
}
}
}
int v = trains[id].v;
if (is_heavy[v]) {
seg[v].update_pos(id - planets[v].L, dp[id]);
}
}
else {
fen.update(id);
for (auto u: heavy) {
int pos = lower_bound(trains.begin() + planets[u].L, trains.begin() + planets[u].R + 1, meals[id].L - 1) - trains.begin() - 1 - planets[u].L;
seg[u].update_pref(pos, planets[u].cost);
}
}
}
long long res = dp.back();
if (res == inf2) {
res = -1;
}
return res;
}
# |
결과 |
실행 시간 |
메모리 |
Grader output |
1 |
Correct |
1 ms |
344 KB |
Correct. |
2 |
Correct |
1 ms |
348 KB |
Correct. |
3 |
Correct |
1 ms |
348 KB |
Correct. |
4 |
Correct |
1 ms |
348 KB |
Correct. |
5 |
Correct |
0 ms |
344 KB |
Correct. |
6 |
Correct |
0 ms |
348 KB |
Correct. |
7 |
Correct |
0 ms |
348 KB |
Correct. |
# |
결과 |
실행 시간 |
메모리 |
Grader output |
1 |
Correct |
56 ms |
10196 KB |
Correct. |
2 |
Correct |
62 ms |
15688 KB |
Correct. |
3 |
Correct |
1 ms |
344 KB |
Correct. |
4 |
Correct |
10 ms |
5836 KB |
Correct. |
5 |
Correct |
0 ms |
348 KB |
Correct. |
6 |
Correct |
61 ms |
11128 KB |
Correct. |
7 |
Correct |
0 ms |
348 KB |
Correct. |
8 |
Correct |
57 ms |
22492 KB |
Correct. |
9 |
Correct |
65 ms |
15936 KB |
Correct. |
# |
결과 |
실행 시간 |
메모리 |
Grader output |
1 |
Correct |
56 ms |
10196 KB |
Correct. |
2 |
Correct |
62 ms |
15688 KB |
Correct. |
3 |
Correct |
1 ms |
344 KB |
Correct. |
4 |
Correct |
10 ms |
5836 KB |
Correct. |
5 |
Correct |
0 ms |
348 KB |
Correct. |
6 |
Correct |
61 ms |
11128 KB |
Correct. |
7 |
Correct |
0 ms |
348 KB |
Correct. |
8 |
Correct |
57 ms |
22492 KB |
Correct. |
9 |
Correct |
65 ms |
15936 KB |
Correct. |
10 |
Correct |
98 ms |
15680 KB |
Correct. |
11 |
Correct |
103 ms |
21020 KB |
Correct. |
12 |
Correct |
10 ms |
5836 KB |
Correct. |
13 |
Correct |
0 ms |
344 KB |
Correct. |
14 |
Correct |
197 ms |
20956 KB |
Correct. |
15 |
Correct |
101 ms |
20800 KB |
Correct. |
16 |
Correct |
969 ms |
18104 KB |
Correct. |
17 |
Correct |
105 ms |
27200 KB |
Correct. |
# |
결과 |
실행 시간 |
메모리 |
Grader output |
1 |
Correct |
1 ms |
344 KB |
Correct. |
2 |
Correct |
1 ms |
348 KB |
Correct. |
3 |
Correct |
1 ms |
348 KB |
Correct. |
4 |
Correct |
1 ms |
348 KB |
Correct. |
5 |
Correct |
0 ms |
344 KB |
Correct. |
6 |
Correct |
0 ms |
348 KB |
Correct. |
7 |
Correct |
0 ms |
348 KB |
Correct. |
8 |
Correct |
56 ms |
10196 KB |
Correct. |
9 |
Correct |
62 ms |
15688 KB |
Correct. |
10 |
Correct |
1 ms |
344 KB |
Correct. |
11 |
Correct |
10 ms |
5836 KB |
Correct. |
12 |
Correct |
0 ms |
348 KB |
Correct. |
13 |
Correct |
61 ms |
11128 KB |
Correct. |
14 |
Correct |
0 ms |
348 KB |
Correct. |
15 |
Correct |
57 ms |
22492 KB |
Correct. |
16 |
Correct |
65 ms |
15936 KB |
Correct. |
17 |
Correct |
98 ms |
15680 KB |
Correct. |
18 |
Correct |
103 ms |
21020 KB |
Correct. |
19 |
Correct |
10 ms |
5836 KB |
Correct. |
20 |
Correct |
0 ms |
344 KB |
Correct. |
21 |
Correct |
197 ms |
20956 KB |
Correct. |
22 |
Correct |
101 ms |
20800 KB |
Correct. |
23 |
Correct |
969 ms |
18104 KB |
Correct. |
24 |
Correct |
105 ms |
27200 KB |
Correct. |
25 |
Correct |
106 ms |
20952 KB |
Correct. |
26 |
Correct |
107 ms |
21256 KB |
Correct. |
27 |
Correct |
106 ms |
20804 KB |
Correct. |
28 |
Correct |
113 ms |
21720 KB |
Correct. |
29 |
Correct |
103 ms |
15936 KB |
Correct. |
30 |
Correct |
162 ms |
15804 KB |
Correct. |
31 |
Correct |
160 ms |
15548 KB |
Correct. |
32 |
Correct |
163 ms |
15552 KB |
Correct. |
33 |
Correct |
248 ms |
19644 KB |
Correct. |
34 |
Correct |
252 ms |
19836 KB |
Correct. |
35 |
Correct |
265 ms |
20152 KB |
Correct. |
36 |
Correct |
168 ms |
16060 KB |
Correct. |
37 |
Correct |
107 ms |
20800 KB |
Correct. |
38 |
Correct |
351 ms |
16576 KB |
Correct. |
39 |
Correct |
137 ms |
21720 KB |
Correct. |
40 |
Correct |
131 ms |
20796 KB |
Correct. |
41 |
Correct |
101 ms |
20800 KB |
Correct. |
42 |
Correct |
96 ms |
15680 KB |
Correct. |
43 |
Correct |
142 ms |
15328 KB |
Correct. |
44 |
Correct |
110 ms |
21020 KB |
Correct. |
45 |
Correct |
133 ms |
20800 KB |
Correct. |
46 |
Correct |
105 ms |
20800 KB |
Correct. |
47 |
Correct |
95 ms |
27204 KB |
Correct. |
48 |
Correct |
100 ms |
27204 KB |
Correct. |
49 |
Correct |
94 ms |
28652 KB |
Correct. |
50 |
Correct |
99 ms |
27200 KB |
Correct. |
51 |
Correct |
94 ms |
27112 KB |
Correct. |
52 |
Correct |
93 ms |
28480 KB |
Correct. |