anduturacila6's blog

By anduturacila6, history, 5 years ago, In English

Problem: https://open.kattis.com/problems/randommanhattan

Official Solution:

/*

Within a zone:  Z = (l^2+3lr+r^2)w^3/15

Cx(i) = x0 + (l+2r)/(3(l+r))w

*/
#include <iostream>
#include <algorithm>
#include <iomanip>
#include <cstdlib>
#include <vector>
#include <math.h>
#include <tuple>
using namespace std ;
using ll = long long ;
using t3 = tuple<double, double, double> ;
int main() {
   cout << setprecision(15) ;
   int N{0} ;
   cin >> N ;
   vector<ll> xs(N), ys(N) ;
   for (int i=0; i<N; i++)
      cin >> xs[i] >> ys[i] ;
   double r {} ;
   for (int outer=0; outer<2; outer++) {
      int hix0 = min_element(xs.begin(), xs.end()) - xs.begin() ;
      int lox0 { hix0 } ;
      auto ht=[&](ll x, int p0, int p1) -> double {
         if (x == xs[p0])
            return ys[p0] ;
         if (x == xs[p1])
            return ys[p1] ;
         return ys[p0]+(x-xs[p0])*(ys[p1]-ys[p0])/(double)(xs[p1]-xs[p0]) ;
      } ;
      vector<t3> zones ;
      while (1) {
         int hix1 { (hix0 + 1) % N } ;
         int lox1 { (lox0 + N - 1) % N } ;
         ll x0 = max(xs[hix0], xs[lox0]) ;
         if (x0 == xs[hix1]) {
            hix0 = hix1 ;
            continue ;
         }
         if (x0 == xs[lox1]) {
            lox0 = lox1 ;
            continue ;
         }
         ll x1 { min(xs[hix1], xs[lox1]) } ;
         if (x1 < x0)
            break ;
         if (x1 == x0)
            throw "Failed while building zones" ;
         double lft { ht(x0, hix0, hix1) - ht(x0, lox0, lox1) } ;
         double rgt { ht(x1, hix0, hix1) - ht(x1, lox0, lox1) } ;
         zones.push_back(make_tuple(lft, rgt, (double)(x1-x0))) ;
//  cout << "Adding tuple xs " << x0 << " " << x1 << " heights " << lft << " " << rgt << endl ;
         if (x1 == xs[hix1])
            hix0 = hix1 ;
         if (x1 == xs[lox1])
            lox0 = lox1 ;
      }
      double s {} ;
      double cxa {} ;
      double sa {} ;
      double a2 {} ;
      double x0 {} ;
      for (int i=0; i<zones.size(); i++) {
         t3 &z = zones[i] ;
         double lft { get<0>(z) }, rgt { get<1>(z) }, w { get<2>(z) } ;
         s += (lft*lft+3*lft*rgt+rgt*rgt)*w*w*w/15 ;
         double ta { (lft+rgt)*w/2 } ;
         double cx { x0 + (lft+2*rgt)/(3*(lft+rgt))*w } ;
         if (i)
            s += 2 * (cx - cxa / sa) * sa * ta ;
         a2 += ta*(2*sa+ta) ;
         sa += ta ;
         cxa += cx * ta ;
         x0 += w ;
      }
      r += s / a2 ;
      swap(xs, ys) ;
      reverse(xs.begin(), xs.end()) ;
      reverse(ys.begin(), ys.end()) ;
   }
   cout << r << endl ;
}

I understand that Cx is the center of a trapezoid but I don't know how the rest of the code works. I know they do 2 passes and swap x and y coordinates, but I don't know how they got the equation for Z (why the 15? does it involve integration?), why they're using the (current area) * (2 * previously accumulated area + current area), why they multiple the trapezoid center by the trapezoid area to get cxa, etc..

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By anduturacila6, history, 7 years ago, In English

Hello,

I was trying to solve Codeforces Round #489 (Div. 2), problem: (C) Nastya and a Wardrobe,(http://mirror.codeforces.com/contest/992/problem/C), and my solution so far gets the first 21 test cases right.

I know how to solve it, the only problem is outputting correctly using modulo.

My code currently looks like this:

import java.io.*;
import java.util.*;

public class Main {

    public static int MOD = (int)Math.pow(10, 9)+7;


    public static long powMod(long X,long N){
        long result = 1;
        X = X % MOD;
        while(N > 0){
            if(N % 2 == 1)
                result = (result * X) % MOD;
            N >>= 1;
            X = (X*X)%MOD;
        }
        return result;
    }

    public static void main(String[] args) {
        Scanner in = new Scanner(System.in);

        long X = in.nextLong();
        long K = in.nextLong();
        if(X == 1)
            System.out.println(powMod(2, K) + 1);
        else if(X == 0)
            System.out.println(0);
        else if(K == 0)
            System.out.println(X*2);
        else {
            long upperLimit = ((X%MOD) * powMod(2, K + 1));
            long diff = (X - 1) % MOD;
            long lowerLimit = (2*((-diff*((1-powMod(2, K)))) + (X%MOD)))%MOD;
            if(X < 1000 && X > 100)
                lowerLimit = (2*((-diff*((1-powMod(2, K)))) + (X%MOD)));


            if(X > 1000 && K < 1000)
                System.out.println((((upperLimit + lowerLimit)%MOD) / 2) % MOD);
            else
                System.out.println(((upperLimit + lowerLimit) / 2) % MOD);
        }

    }
}

I've tried several different combinations of modulo addition and multiplication, but none seem to reliably output the answer without me cheating a bit by adding if conditions.

I've seen the rules for modulo arithmetic and multiplication, but following those rules seems to get me even more qrong answers.

I was wondering what exactly am I doing wrong concerning the use of modulo and what to keep in my mind when I encounter similar problems.

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