Submission #339378

# Submission time Handle Problem Language Result Execution time Memory
339378 2020-12-25T07:03:44 Z amunduzbaev Experiments with Gorlum (IZhO13_expgorl) C++14
0 / 100
2 ms 364 KB
/** made by amunduzbaev **/

#include <bits/stdc++.h>
#include <ext/pb_ds/assoc_container.hpp> 
#include <ext/pb_ds/tree_policy.hpp> 
#include <ext/rope>

using namespace __gnu_pbds;
using namespace __gnu_cxx;
using namespace std;

#define ff first
#define ss second
#define pb push_back
#define mp make_pair
#define ub upper_bound
#define lb lower_bound
#define ll long long
#define ld long double
#define pii pair<int, int>
#define pll pair<ll, ll>
#define sz(x) (int)x.size()
#define all(x) x.begin(), x.end()
#define rall(x) x.rbegin(),x.rend()
#define fastios ios::sync_with_stdio(0);cin.tie(0);cout.tie(0);
#define vll vector<ll>
#define vii vector<int>
#define vpii vector<pii>
#define vpll vector<pll>
#define cnt(a)__builtin_popcount(a)
template<class tmp> bool umin(tmp& a, const tmp b) {return a > b? a = b, true:false;}
template<class tmp> bool umax(tmp& a, const tmp b) {return a < b? a = b, true:false;}

typedef tree<pii,null_type,less<pii>,rb_tree_tag,tree_order_statistics_node_update> ordered_set;

const int N = 1e7+5;
const int mod = 1e9+7;
const ll inf = 1e18;
const ld Pi = acos(-1);
ll n, m, k, ans, a[N];
ll gx, gy, lx, ly;
string s;

void solve(){
	cin>>k>>s;
	cin>>lx>>ly;
	cin>>gx>>gy;
	ll nx = gx, ny = gy, ex = gx, ey = gy, sx = gx, sy = gy, wx = gx, wy = gy;
	ll nmx = gx, nmy = gy, emx = gx, emy = gy, smx = gx, smy = gy, wmx = gx, wmy = gy;
	ll disx = 0, disy = 0;
	ll endx = gx, endy = gy;
	ld maxdis = (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly)));
	ld mindis = (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly)));
	for(ll i=0;i<sz(s);i++){
		if(s[i] == 'L') endx--;
		else if(s[i] == 'R') endx++;
		else if(s[i] == 'F') endy++;
		else if(s[i] == 'B') endy--;
		else continue;
		umax(maxdis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		umin(mindis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		
		if(endy > ny) nx = endx, ny = endy;
		else if((ld)sqrt(((nx - lx) * (nx - lx)) + ((ny - ly) * (ny - ly))) < (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly)))) nx = endx, ny = endy;
		else if((ld)sqrt(((nmx - lx) * (nmx - lx)) + ((nmy - ly) * (nmy - ly))) > (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly)))) nmx = endx, nmy = endy;
		
		if(endy < sy) sx = endx, sy = endy;
		else if((ld)sqrt(((sx - lx) * (sx - lx)) + ((sy - ly) * (sy - ly))) < (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly)))) sx = endx, sy = endy;
		else if((ld)sqrt(((smx - lx) * (smx - lx)) + ((smy - ly) * (smy - ly))) > (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly)))) smx = endx, smy = endy;
		
		if(endx > ex) ex = endx, ey = endy;
		else if((ld)sqrt(((ex - lx) * (ex - lx)) + ((ey - ly) * (ey - ly))) < (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly)))) ex = endx, ey = endy;
		else if((ld)sqrt(((emx - lx) * (emx - lx)) + ((emy - ly) * (emy - ly))) > (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly)))) emx = endx, emy = endy;
		
		if(endx < wx) wx = endx, wy = endy;
		else if((ld)sqrt(((wx - lx) * (wx - lx)) + ((wy - ly) * (wy - ly))) < (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly)))) nx = endx, ny = endy;
		else if((ld)sqrt(((wmx - lx) * (wmx - lx)) + ((wmy - ly) * (wmy - ly))) > (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly)))) wmx = endx, wmy = endy;
		
	}
	disx = endx - gx, disy = endy - gy;
	nx = nx - endx, ny = ny - endy;
	sx = sx - endx, sy = sy - endy;
	ex = ex - endx, ey = ey - endy;
	wx = wx - endx, wy = wy - endy;
	nmx = nmx - endx, nmy = nmy - endy;
	smx = smx - endx, smy = smy - endy;
	emx = emx - endx, emy = emy - endy;
	wmx = wmx - endx, wmy = wmy - endy;
	
	
	for(ll j=1;j<k;j++){
		endx += disx, endy += disy;
		// NNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
		endx += nx, endy += ny;
		umax(maxdis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		umin(mindis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		endx -= nx, endy -= ny;
		endx += nmx, endy += nmy;
		umax(maxdis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		umin(mindis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		endx -= nmx, endy -= nmy;
		
		// SSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSS
		endx += sx, endy += sy;
		umax(maxdis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		umin(mindis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		endx -= sx, endy -= sy;
		endx += smx, endy += smy;
		umax(maxdis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		umin(mindis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		endx -= smx, endy -= smy;
		// EEEEEEEEEEEEEEEEEEEEEEEEEEEEEE
		endx += ex, endy += ey;
		umax(maxdis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		umin(mindis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		endx -= ex, endy -= ey;
		endx += emx, endy += emy;
		umax(maxdis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		umin(mindis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		endx -= emx, endy -= emy;
		// WWWWWWWWWWWWWWWWWWWWWWWWWWWWW
		endx += wx, endy += wy;
		umax(maxdis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		umin(mindis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		endx -= wx, endy -= wy;
		endx += wmx, endy += wmy;
		umax(maxdis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		umin(mindis, (ld)sqrt(((endx - lx) * (endx - lx)) + ((endy - ly) * (endy - ly))));
		endx -= wmx, endy -= wmy;
	}
	
	cout<<fixed<<setprecision(20)<<mindis<<" ";
	cout<<fixed<<setprecision(20)<<maxdis<<"\n";
	return;
}

/*

2
RFRBBL
0 0 
1 1 

*/

int main(){
	fastios
	int t = 1;
	if(t) solve();
	else {
		cin>>t;
		while (t--) solve();
	}
	return 0;
}
# Verdict Execution time Memory Grader output
1 Correct 2 ms 364 KB Output is correct
2 Incorrect 2 ms 364 KB Output isn't correct
3 Halted 0 ms 0 KB -