![[Cometoj#4 E]公共子序列_贪心_树状数组_动态规划](https://image.shishitao.com:8440/aHR0cHM6Ly9ia3FzaW1nLmlrYWZhbi5jb20vdXBsb2FkL2NoYXRncHQtcy5wbmc%2FIQ%3D%3D.png?!?w=700&webp=1 "[Cometoj#4 E]公共子序列_贪心_树状数组_动态规划")
公共子序列
题目链接:https://cometoj.com/contest/39/problem/E?problem_id=1585
数据范围:略。
题解:
首先可以考虑知道了$1$的个数和$3$的个数,怎么求?
其实就是从开始找$x$个$1$,从结尾找$z$个$3$,然后两个序列中间$2$的个数的较小值。
然后按照官方题解那样推式子,发现可以用树状数组维护。
代码:
#include <bits/stdc++.h>
#define N 5000010
using namespace std;
char *p1, *p2, buf[100000];
#define nc() (p1 == p2 && (p2 = (p1 = buf) + fread(buf, 1, 100000, stdin), p1 == p2) ? EOF : *p1 ++ )
int rd() {
int x = 0;
char c = nc();
while (c < 48) {
c = nc();
}
while (c > 47) {
x = (((x << 2) + x) << 1) + (c ^ 48), c = nc();
}
return x;
}
struct BT {
int tree[N << 1], n;
inline int lowbit(int x) {
return x & (-x);
}
void update(int x, int val) {
for (int i = x; i <= n; i += lowbit(i)) {
tree[i] = max(tree[i], val);
}
}
int query(int x) {
int ans = -999999999;
for (int i = x; i; i -= lowbit(i)) {
ans = max(ans, tree[i]);
}
return ans;
}
}T1, T2;
struct Node {
int x, y;
}st1[N], st2[N];
int a[N], b[N], sa[N], sb[N], cnt1, cnt2;
int main() {
// cout << (int)0xefefefef << ' ' << -999999999 << endl ;
int T = rd();
while (T -- ) {
int n = rd(), m = rd();
T1.n = T2.n = n + m + 1;
for (int i = 1; i <= n + m + 1; i ++ ) {
T1.tree[i] = T2.tree[i] = -999999999;
}
for (int i = 1; i <= n; i ++ ) {
a[i] = rd();
sa[i] = sa[i - 1];
if (a[i] == 2) {
sa[i] ++ ;
}
}
for (int i = 1; i <= m; i ++ ) {
b[i] = rd();
sb[i] = sb[i - 1];
if (b[i] == 2) {
sb[i] ++ ;
}
}
int u1 = 1, u2 = 1;
cnt1 = 0;
while (1) {
for (; a[u1] != 1 && u1 < n; u1 ++ );
for (; b[u2] != 1 && u2 < m; u2 ++ );
if (a[u1] != 1 || b[u2] != 1) {
break;
}
st1[ ++ cnt1] = (Node) {u1, u2};
u1 ++ , u2 ++ ;
}
u1 = n, u2 = m;
cnt2 = 0;
while (1) {
for (; a[u1] != 3 && u1 > 1; u1 -- );
for (; b[u2] != 3 && u2 > 1; u2 -- );
if (a[u1] != 3 || b[u2] != 3) {
break;
}
st2[ ++ cnt2] = (Node) {u1, u2};
u1 -- , u2 -- ;
}
int now = 0, ans = 0;
st2[0] = (Node) {n, m};
for (int i = cnt1; ~i; i -- ) {
int x = st1[i].x, y = st1[i].y, mdl;
for (; st2[now].x >= x && st2[now].y >= y && now <= cnt2; now ++ ) {
mdl = sa[st2[now].x] - sb[st2[now].y];
T1.update(m + 1 + mdl, now + sa[st2[now].x]);
T2.update(n + 1 - mdl, now + sb[st2[now].y]);
}
mdl = sa[x] - sb[y];
ans = max(ans, i + T1.query(m + 1 + mdl) - sa[x]);
ans = max(ans, i + T2.query(n + 1 - mdl) - sb[y]);
}
printf("%d\n", ans);
}
return 0;
}