题意:有两个小孩玩游戏,每个小孩可以选择一个起始点,并且下一个选择的点必须和自己选择的上一个点相邻,问两个选的点权和的最大值是多少?
思路:首先这个问题可以转化为求树上两不相交路径的点权和的最大值,对于这种问题,我们有两种想法:
1:树的直径,受之前HDU多校的那道题的启发,我们先找出树的直径,然后枚举保留直径的哪些部分,去找保留这一部分的最优解,去更新答案。
代码:
#include <bits/stdc++.h>
#define INF 1e18
#define LL long long
using namespace std;
const int maxn = 100010;
vector<int> G[maxn];
LL tot;
int now, f[maxn];
LL d[maxn], val[maxn], sum[maxn];
bool v[maxn], v1[maxn];
LL mx[maxn];
void add(int x, int y) {
G[x].push_back(y);
G[y].push_back(x);
}
void dfs(int x, int fa, LL sum) {
sum += val[x];
v1[x] = 1;
f[x] = fa;
if(sum > tot) {
now = x;
tot = sum;
}
for (auto y : G[x]) {
if(y == fa || v[y]) continue;
dfs(y, x, sum);
}
}
void dfs1(int x, int fa) {
d[x] = val[x];
LL tmp = 0;
for (auto y : G[x]) {
if(y == fa || v[y]) continue;
dfs1(y, x);
tmp = max(tmp, d[y]);
}
d[x] += tmp;
return;
}
vector<int> a;
int main() {
int n, x, y;
scanf("%d", &n);
for (int i = 1; i <= n; i++) {
scanf("%lld", &val[i]);
}
for (int i = 1; i < n; i++) {
scanf("%d%d", &x, &y);
add(x, y);
}
LL ans = 0;
tot = 0, now = 0;
dfs(1, 0, 0);
tot = 0;
dfs(now, 0, 0);
for (int i = now; i; i = f[i]) {
a.push_back(i);
sum[a.size()] = sum[a.size() - 1] + val[i];
v[i] = 1;
}
for (auto y : a) {
dfs1(y, 0);
}
memset(v1, 0, sizeof(v1));
for (int i = 1; i <= n; i++) {
if(v[i] == 1 || v1[i] == 1) continue;
tot = now = 0;
dfs(i, 0, 0);
tot = 0;
dfs(now, 0, 0);
ans = max(ans, tot + sum[a.size()]);
}
mx[a[a.size() - 1]] = d[a[a.size() - 1]];
for (int i = a.size() - 2; i >= 1; i--) {
mx[a[i]] = max(mx[a[i + 1]], sum[a.size()] - sum[i] + d[a[i]] - val[a[i]]);
}
for (int i = 0; i < a.size() - 1; i++) {
ans = max(ans, d[a[i]] + sum[i] + mx[a[i + 1]]);
}
printf("%lld
", ans);
}
思路2:树形DP,我们对于每个点保留从它到叶子节点的最长路径和次长路径,以及以它为根的子树中的最长路径。dp完之后,我们对于每个节点,枚举选哪棵子树中的节点作为一条路径,然后去寻找另一条最长路径。可以用前缀最大值和后缀最大值去优化,以及需要注意需要考虑父节点方向对答案的影响。
代码:
#include <bits/stdc++.h>
#define LL long long
#define pll pair<LL, LL>
using namespace std;
const int maxn = 100010;
vector<int> G[maxn];
LL mx_path[maxn], mx_dis[maxn];
LL lmx_path[maxn], rmx_path[maxn];
pll lmx_dis[maxn], rmx_dis[maxn];
LL val[maxn];
LL ans = 0;
void add(int x, int y) {
G[x].push_back(y);
G[y].push_back(x);
}
void dfs(int x, int fa) {
vector<LL> tmp(3);
for (auto y : G[x]) {
if(y == fa) continue;
dfs(y, x);
tmp[0] = mx_dis[y];
sort(tmp.begin(), tmp.end());
mx_path[x] = max(mx_path[y], mx_path[x]);
}
mx_dis[x] = tmp[2] + val[x];
mx_path[x] = max(mx_path[x], tmp[1] + tmp[2] + val[x]);
return;
}
int tot, a[maxn];
struct node {
int x, fa;
LL mx_p, mx_d;
};
queue<node> q;
void solve() {
q.push((node){1, 0, 0, 0});
while(q.size()) {
node tmp = q.front();
q.pop();
tot = 0;
int x = tmp.x, fa = tmp.fa;
tot = 0;
for (int i = 0; i < G[x].size(); i++) {
if(G[x][i] == fa) continue;
a[++tot] = G[x][i];
}
rmx_path[tot + 1] = rmx_path[tot + 2] = 0;
rmx_dis[tot + 1] = rmx_dis[tot + 2] = make_pair(0, 0);
for (int i = 1; i <= tot; i++) {
lmx_path[i] = max(lmx_path[i - 1], mx_path[a[i]]);
lmx_dis[i] = lmx_dis[i - 1];
if(mx_dis[a[i]] >= lmx_dis[i].first) {
lmx_dis[i].second = lmx_dis[i].first;
lmx_dis[i].first = mx_dis[a[i]];
} else if(mx_dis[a[i]] > lmx_dis[i].second) {
lmx_dis[i].second = mx_dis[a[i]];
}
}
for (int i = tot; i >= 1; i--) {
rmx_path[i] = max(rmx_path[i + 1], mx_path[a[i]]);
rmx_dis[i] = rmx_dis[i + 1];
if(mx_dis[a[i]] >= rmx_dis[i].first) {
rmx_dis[i].second = rmx_dis[i].first;
rmx_dis[i].first = mx_dis[a[i]];
} else if(mx_dis[a[i]] > rmx_dis[i].second) {
rmx_dis[i].second = mx_dis[a[i]];
}
}
LL tmp1 = 0;
// printf("%d
", x);
// for (int i = 1; i <= tot; i++) {
// printf("%lld %lld
", lmx_path[i], rmx_path[i]);
// }
for (int i = 1; i <= tot; i++) {
LL tmp2 = 0;
tmp2 = max(tmp2, lmx_path[i - 1]);
tmp2 = max(tmp2, rmx_path[i + 1]);
tmp2 = max(tmp2, tmp.mx_p);
tmp2 = max(tmp2, val[x] + lmx_dis[i - 1].first + tmp.mx_d);
tmp2 = max(tmp2, val[x] + rmx_dis[i + 1].first + tmp.mx_d);
tmp2 = max(tmp2, val[x] + lmx_dis[i - 1].first + lmx_dis[i - 1].second);
tmp2 = max(tmp2, val[x] + rmx_dis[i + 1].first + rmx_dis[i + 1].second);
tmp2 = max(tmp2, val[x] + lmx_dis[i - 1].first + rmx_dis[i + 1].first);
tmp2 = max(tmp2, val[x] + tmp.mx_d + max(lmx_dis[i - 1].first, rmx_dis[i + 1].first));
// printf("%lld ", tmp.mx_d);
// printf("%lld ", tmp2);
q.push((node){a[i], x, tmp2, val[x] + max(max(lmx_dis[i - 1].first, rmx_dis[i + 1].first), tmp.mx_d)});
tmp2 += mx_path[a[i]];
// printf("%lld
", tmp2);
tmp1 = max(tmp1, tmp2);
}
// printf("
");
ans = max(ans, tmp1);
ans = max(ans, tmp.mx_p + mx_path[x]);
}
}
int main() {
int n, x, y;
// freopen("633Fin.txt", "r" , stdin);
// freopen("out1.txt", "w", stdout);
scanf("%d" , &n);
for (int i = 1; i <= n; i++)
scanf("%lld", &val[i]);
for (int i = 1; i < n; i++) {
scanf("%d%d", &x, &y);
add(x, y);
}
dfs(1, 0);
solve();
printf("%lld
", ans);
}