Kod źródłowy zgłoszenia nr 492262

//Konrad Paluszek,University of Warsaw(former XIV LO Staszic)
//#STAY AT HOME
#ifndef LOCAL
#pragma GCC optimize("O3")
#endif
#define TIME (chrono::steady_clock::now().time_since_epoch().count())
#include<bits/stdc++.h>
#include<ext/pb_ds/assoc_container.hpp>
#include<ext/pb_ds/tree_policy.hpp>
#define xfm(a,b)a##b
#define xwb(a,b)xfm(a,b)
#define _ xwb(nvj,__LINE__)
#define __ xwb(kjy,__LINE__)
#define ___ xwb(cjm,__LINE__)
#define REP(i,n)for(urs(n)i=0;i<(n);++i)
#define PER(r...)for(bool _=1;_||next_permutation(r);_=false)
#define FS(r)r.first,r.second
#define ALL(r)(r).begin(),(r).end()
#define M0(r) memset(r,0,sizeof(r))
#define sim template<class c
#define forbits(i,m)if(m)for(urs(m)i=ctz(m),i##nvj=m;i##nvj;i##nvj^=((urs(m))1<<i),i=i##nvj?ctz(i##nvj):0)
#define fordbits(i,m)if(m)for(urs(m)i=8*sizeof(m)-clz(m)-1,i##nxd=m;i##nxd;i##nxd^=((urs(m))1<<i),i=i##nxd?8*sizeof(m)-clz(i##nxd)-1:0)
#define ksets(t, m, k, n)for(t m=(((t)1<<(k))-1);m<((t)1<<(n));m=nux(m))
#define urs(r...)typename decay<decltype(r)>::type
#define hur(f,g)sim>int f(c a){if(sizeof(c)==8)return g##ll(a);return g(a);}
using namespace __gnu_pbds;using namespace std;using ll=long long;using ld=long double;using ull=unsigned long long;using vi=vector<int>;using vll=vector<ll>;using pii=pair<int,int>;using pll=pair<ll,ll>;using vpii=vector<pii>;using unt=unsigned int;sim>using min_queue=priority_queue<c,vector<c>,greater<>>;sim,class b,class cmp=less<c>>using ordered_map=tree<c,b,cmp,rb_tree_tag,tree_order_statistics_node_update>;sim,class cmp=less<c>>using ordered_set=ordered_map<c,null_type,cmp>;hur(popc,__builtin_popcount)hur(ctz,__builtin_ctz)hur(clz,__builtin_clz)sim,class N>bool mini(c&o,const N&h){if(o>h)return o=h,1;return 0;}sim,class N>bool maxi(c&o,const N&h){if(o<h)return o=h,1;return 0;}
#ifdef LOCAL
#include </home/konrad/cp/headers/debuglib.hpp>
#else
#define loc(...)
#define onl(r...)r
#define debug(...)
#define print_stack(...)
#define mark_stack(...)
#define set_pre(...)
#define reg_it(...)
#define def_op(...) struct _{};
#define mask_set(...)
#define exit my_exit
void __resources();
void my_exit(int x) {fflush(stdout);
#ifdef LOCAL2
__resources();
#endif
_Exit(x);}
#endif
#define next nexT
#define prev preV
#define tree trEE
#define left lefT
#define right righT
#define div diV
#define y1 y_1
#define pow don't'
ull mix(ull o){o+=0x9e3779b97f4a7c15;o=(o^(o>>30))*0xbf58476d1ce4e5b9;o=(o^(o>>27))*0x94d049bb133111eb;return o^(o>>31);}ull SALT=0x7a14a4b0881ebf9,tqu=0x7a14a4b0881ebf9;ull my_rand(){return tqu=mix(tqu);}void my_srand(ull x){SALT=tqu=x;}const int inf=1023400000;const ll llinf=1234567890000000000ll;ll fix(ll o, ll m){o%=m;if(o<0)o+=m;return o;}
#define rand my_rand
#define srand my_srand
#define random_shuffle(r...)random_shuffle(r,[](int _){return my_rand()%_;})
sim>inline c nux(c m){if(!m)return numeric_limits<c>::max();c A=m&-m;c B=~((A-1)^m);c C=B&-B;c D=(C>>(1+ctz(A)))-1;return C|(m&~(C-1))|D;}sim>void unq(c&x){x.resize(unique(ALL(x))-x.begin());}
//#STAY AT HOME
const int nax = 2e5 + 44;
using res = array<ll, 4>;
const res leaf = {0, -llinf, -llinf, -llinf};
vpii graph[nax];
res push(const res &r, int weight) {
	res ans;
	REP(i, 3) ans[i + 1] = r[i] + weight;
	ans[0] = max(r[0], r[3] + weight);
	return ans;
}
#ifdef LOCAL
res which[nax];
vector <res> subs[nax];
#endif
res dfs(int x, int p = -1) {
	random_shuffle(ALL(graph[x]));
	vector <res> sub;
	sub.reserve(graph[x].size() - (p != -1));
	for (auto [v, c] : graph[x])
		if (v != p)
			sub.push_back(push(dfs(v, x), c));
	if (sub.empty()) return leaf;
	int siz = sub.size();
	int block = min(700, (siz + 1) / 2);
	int valid_threes = 0;
	for (auto r : sub) if (r[3] > -2.1e14) valid_threes++;
	mini(block, valid_threes + 1);
	if (x == 1) cerr << "block = " << block << endl;
	vector <array <ll, 2> > dp(2 * block + 1), dphelp(2 * block + 1);
	memset(dp.data(), -60, sizeof(dp[0]) * dp.size());
	dp[block][0] = 0;
	for (auto r : sub) {
		memset(dphelp.data(), -60, sizeof(dphelp[0]) * dphelp.size());
		REP(s, dp.size()) REP(b, 2) REP(c, 4) {
			int tox = s + (c == 1 ? 1 : c == 3 ? -1 : 0), toy = b ^ (c == 2);
			if (tox >= 0 && tox < (int) dp.size()) maxi(dphelp[tox][toy], dp[s][b] + r[c]);
		}
		swap(dp, dphelp);
	}
	res ret = {dp[block][0], dp[block + 1][0], dp[block][1], dp[block - 1][0]};
	#ifdef LOCAL
	which[x] = ret;
	subs[x] = sub;
	#endif
	return ret;
}
void solve() {
	int n;
	scanf("%d", &n);
	REP(_, n - 1) {
		int a, b, c;
		scanf("%d%d%d", &a, &b, &c);
		graph[a].emplace_back(b, c);
		graph[b].emplace_back(a, c);
	}
	int top = 1 + rand() % n;
	ll ans = dfs(top)[0];
	debug(draw_tree(top, [](int x){vi children; for (auto [c, _] : graph[x]) children.push_back(c);return children;}, node_arrays(which, subs)));
	printf("%lld\n", ans);
	fprintf(stderr, "%lld\n", ans);
}
int main() {
	unt seed = TIME; debug(imie(seed));srand(seed);
	cerr << "seed = " << seed << endl;
	// unt seed = 4086391511; debug(imie(seed));srand(seed);
	int t = 1;
	// scanf("%d", &t);
	REP(_, t) solve();
	exit(0);
}
//#STAY AT HOME

//Konrad Paluszek,University of Warsaw(former XIV LO Staszic)
//#STAY AT HOME
#ifndef LOCAL
#pragma GCC optimize("O3")
#endif
#define TIME (chrono::steady_clock::now().time_since_epoch().count())
#include<bits/stdc++.h>
#include<ext/pb_ds/assoc_container.hpp>
#include<ext/pb_ds/tree_policy.hpp>
#define xfm(a,b)a##b
#define xwb(a,b)xfm(a,b)
#define _ xwb(nvj,__LINE__)
#define __ xwb(kjy,__LINE__)
#define ___ xwb(cjm,__LINE__)
#define REP(i,n)for(urs(n)i=0;i<(n);++i)
#define PER(r...)for(bool _=1;_||next_permutation(r);_=false)
#define FS(r)r.first,r.second
#define ALL(r)(r).begin(),(r).end()
#define M0(r) memset(r,0,sizeof(r))
#define sim template<class c
#define forbits(i,m)if(m)for(urs(m)i=ctz(m),i##nvj=m;i##nvj;i##nvj^=((urs(m))1<<i),i=i##nvj?ctz(i##nvj):0)
#define fordbits(i,m)if(m)for(urs(m)i=8*sizeof(m)-clz(m)-1,i##nxd=m;i##nxd;i##nxd^=((urs(m))1<<i),i=i##nxd?8*sizeof(m)-clz(i##nxd)-1:0)
#define ksets(t, m, k, n)for(t m=(((t)1<<(k))-1);m<((t)1<<(n));m=nux(m))
#define urs(r...)typename decay<decltype(r)>::type
#define hur(f,g)sim>int f(c a){if(sizeof(c)==8)return g##ll(a);return g(a);}
using namespace __gnu_pbds;using namespace std;using ll=long long;using ld=long double;using ull=unsigned long long;using vi=vector<int>;using vll=vector<ll>;using pii=pair<int,int>;using pll=pair<ll,ll>;using vpii=vector<pii>;using unt=unsigned int;sim>using min_queue=priority_queue<c,vector<c>,greater<>>;sim,class b,class cmp=less<c>>using ordered_map=tree<c,b,cmp,rb_tree_tag,tree_order_statistics_node_update>;sim,class cmp=less<c>>using ordered_set=ordered_map<c,null_type,cmp>;hur(popc,__builtin_popcount)hur(ctz,__builtin_ctz)hur(clz,__builtin_clz)sim,class N>bool mini(c&o,const N&h){if(o>h)return o=h,1;return 0;}sim,class N>bool maxi(c&o,const N&h){if(o<h)return o=h,1;return 0;}
#ifdef LOCAL
#include </home/konrad/cp/headers/debuglib.hpp>
#else
#define loc(...)
#define onl(r...)r
#define debug(...)
#define print_stack(...)
#define mark_stack(...)
#define set_pre(...)
#define reg_it(...)
#define def_op(...) struct _{};
#define mask_set(...)
#define exit my_exit
void __resources();
void my_exit(int x) {fflush(stdout);
#ifdef LOCAL2
__resources();
#endif
_Exit(x);}
#endif
#define next nexT
#define prev preV
#define tree trEE
#define left lefT
#define right righT
#define div diV
#define y1 y_1
#define pow don't'
ull mix(ull o){o+=0x9e3779b97f4a7c15;o=(o^(o>>30))*0xbf58476d1ce4e5b9;o=(o^(o>>27))*0x94d049bb133111eb;return o^(o>>31);}ull SALT=0x7a14a4b0881ebf9,tqu=0x7a14a4b0881ebf9;ull my_rand(){return tqu=mix(tqu);}void my_srand(ull x){SALT=tqu=x;}const int inf=1023400000;const ll llinf=1234567890000000000ll;ll fix(ll o, ll m){o%=m;if(o<0)o+=m;return o;}
#define rand my_rand
#define srand my_srand
#define random_shuffle(r...)random_shuffle(r,[](int _){return my_rand()%_;})
sim>inline c nux(c m){if(!m)return numeric_limits<c>::max();c A=m&-m;c B=~((A-1)^m);c C=B&-B;c D=(C>>(1+ctz(A)))-1;return C|(m&~(C-1))|D;}sim>void unq(c&x){x.resize(unique(ALL(x))-x.begin());}
//#STAY AT HOME
const int nax = 2e5 + 44;
using res = array<ll, 4>;
const res leaf = {0, -llinf, -llinf, -llinf};
vpii graph[nax];
res push(const res &r, int weight) {
	res ans;
	REP(i, 3) ans[i + 1] = r[i] + weight;
	ans[0] = max(r[0], r[3] + weight);
	return ans;
}
#ifdef LOCAL
res which[nax];
vector <res> subs[nax];
#endif
res dfs(int x, int p = -1) {
	random_shuffle(ALL(graph[x]));
	vector <res> sub;
	sub.reserve(graph[x].size() - (p != -1));
	for (auto [v, c] : graph[x])
		if (v != p)
			sub.push_back(push(dfs(v, x), c));
	if (sub.empty()) return leaf;
	int siz = sub.size();
	int block = min(700, (siz + 1) / 2);
	int valid_threes = 0;
	for (auto r : sub) if (r[3] > -2.1e14) valid_threes++;
	mini(block, valid_threes + 1);
	if (x == 1) cerr << "block = " << block << endl;
	vector <array <ll, 2> > dp(2 * block + 1), dphelp(2 * block + 1);
	memset(dp.data(), -60, sizeof(dp[0]) * dp.size());
	dp[block][0] = 0;
	for (auto r : sub) {
		memset(dphelp.data(), -60, sizeof(dphelp[0]) * dphelp.size());
		REP(s, dp.size()) REP(b, 2) REP(c, 4) {
			int tox = s + (c == 1 ? 1 : c == 3 ? -1 : 0), toy = b ^ (c == 2);
			if (tox >= 0 && tox < (int) dp.size()) maxi(dphelp[tox][toy], dp[s][b] + r[c]);
		}
		swap(dp, dphelp);
	}
	res ret = {dp[block][0], dp[block + 1][0], dp[block][1], dp[block - 1][0]};
	#ifdef LOCAL
	which[x] = ret;
	subs[x] = sub;
	#endif
	return ret;
}
void solve() {
	int n;
	scanf("%d", &n);
	REP(_, n - 1) {
		int a, b, c;
		scanf("%d%d%d", &a, &b, &c);
		graph[a].emplace_back(b, c);
		graph[b].emplace_back(a, c);
	}
	int top = 1 + rand() % n;
	ll ans = dfs(top)[0];
	debug(draw_tree(top, [](int x){vi children; for (auto [c, _] : graph[x]) children.push_back(c);return children;}, node_arrays(which, subs)));
	printf("%lld\n", ans);
	fprintf(stderr, "%lld\n", ans);
}
int main() {
	unt seed = TIME; debug(imie(seed));srand(seed);
	cerr << "seed = " << seed << endl;
	// unt seed = 4086391511; debug(imie(seed));srand(seed);
	int t = 1;
	// scanf("%d", &t);
	REP(_, t) solve();
	exit(0);
}
//#STAY AT HOME