A hack for Problem C: "Set or Decrease" (Educational Round #120)

Правка en2, от Leeisateam, 2021-12-27 22:30:53

1622C - Set or Decrease

A few others and I had solutions for this problem that passed the system tests with a bad time complexity of O(a_i * t). The problem has a_i <= 10^9 and t <= 10^4 so a_i * t can be up to 10^13, which could take over an hour for the code to run, and would obviously give the "Time Limit Exceeded" verdict.

For any step, if you choose "set", it is optimal to set the greatest element (that hasn't been set yet) equal to the smallest element, because this decreases the sum the most.

If you choose "decrease", it is optimal to decrease the smallest element.

It's optimal to do all the "decrease"s before all the "set"s, because this way the largest elements can be set to an even lower number, compared to if any "set" step is done before a "decrease" step.

My initial approach to this problem (with the wrong time complexity) was to simulate the steps one by one, on each step choosing greedily whether to set or decrease based on which would decrease the sum the most, until the sum is at most k.

The issue with this approach is that the simulation takes too long for the test case "1 1 1000000000". In this hack test case, the initial sum is 1 billion and has to be decreased 999,999,999 times until the sum is 1.

(C++20)

#include<bits/stdc++.h>
using namespace std;
typedef long long ll;
int main(){
    ios::sync_with_stdio(0);cin.tie(0);
    ll t; cin>>t;
    for(ll i=0;i<t;i++){
        ll n; cin>>n;
        ll k; cin>>k;
        ll a[n];
        ll steps=0;
        ll sum=0; // sum of integer array "a"
        ll d=0; // d is the number of times the minimum element is decreased
        ll next=n-1; // u is the next biggest element to set
        
        for(ll j=0;j<n;j++){
            cin>>a[j];
            sum+=a[j];
        }
        sort(a,a+n); // sort the array in increasing order
        
        // Problematic code: O(a_i) time complexity
        // This while loop may take up to ~10^9 loops since a_i <= 10^9
        while(sum>k){
            // Greedy algorithm: Choose to set or decrease
            // based on which decreases the sum more
            // It's optimal for "decrease"s to be done before the "set"s
            if(next>0 and a[next]-a[0]+d>n-next){
                // choose a_i to be the largest integer that hasn't yet been set
                // choose a_j to be the smallest integer in the array
                // set a_i equal to be a_j
                // thus the sum is decreased by the difference between a_i and a_j 
                sum-=a[next]-(a[0]-d);
                next-=1;
            }
            else{
                // decrease the smallest element in the array by 1
                sum-=n-next; 
                d++;
            }
            steps++;
        }
        cout<<steps<<endl;
    }
}
 
/*
 
Hack test case:
 
10000
1 1
1000000000
1 1
1000000000
1 1
1000000000
1 1
1000000000
... (repeat this t=10000 times)
 
In this hack test case, my code will start at sum = 1 billion
and slowly decreases the sum by 1 for each iteration in the
while loop until the sum reaches 1.
 
estimated number of operations needed for my code to solve this test case:
a_i * t = 10^9 * 10*4 = 10^13 (takes > 1 hour)
 
*/

Generator for a test case that hacks the above code with "Time Limit Exceeded" verdict: (Python 3)

print(10000)
for i in range(10000):
    print("1 1")
    print("1000000000")

Some submissions that were hacked by this test case: 140789980 140802718 140824115

If all the other elements are already going to be "set" to the smallest element, the optimal move is always to choose "decrease". With this insight, we can break out of the while loop early in this situation, which happens in the 1 1 1000000000 test case.

Fixed code with correct time complexity: 140835404

Теги hack, leeisateam, 1622c, 1622, codeforces

История

 
 
 
 
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  Rev. Язык Кто Когда Δ Комментарий
en5 Английский Leeisateam 2021-12-28 04:13:59 6 Tiny change: ' 10^9 * 10*4 = 10^13 ' -> ' 10^9 * 10^4 = 10^13 '
en4 Английский Leeisateam 2021-12-27 23:02:56 1255 Tiny change: '99999\n...\n~~~~~\n\' -> '99999\n... (this is repeated 10000 times)\n~~~~~\n\' (published)
en3 Английский Leeisateam 2021-12-27 22:49:23 85
en2 Английский Leeisateam 2021-12-27 22:30:53 470
en1 Английский Leeisateam 2021-12-27 22:16:03 3578 Initial revision (saved to drafts)