я не понял, а где мемы в анонсе?

Why it's only 2 Hours for a CodeTON Round? I think we need more than that!

Hope I can reach GM after this.

As a tester, problems are really great! I hope you will enjoy the contest as much as I did.

Yeahh ! CodeTON finally ;D

Good luck!

Good luck!

As a 74TrAkToR's friend, I am sure the round under his coordination will be excellent!

Based on authors, I'm sure there will be no task with bitset lol.

SomethingNew round, are you retarded?????????????????????????????

As a tester I recommend you to participate and I hope you will get positive delta!

Wish it will be an great contest.

as a participant, the 2 hours time combined with that score distribution is scary ._.

wishing for a charming contest

wishing for a charming contest

Finally, great contest (I hope so)

Why is the round on a weekday? I won't be able to participate as I have band practice. It's just even more weird given that it is sponsored

As a one gray tester, give me contribution :)

74TrAkToR Round? I'll skip this one.

Where is my money? I still haven't received my prize from last round. I had to go through the misery of creating a wallet and storing keys.

Where is my money? I still haven't received my prize from last round. I had to go through the misery of creating a wallet and storing keys.

Hope it's the round that I become expert!

I am definitely going to have negative points. If the time remains 2hr :(

It's gonna be my first contest. I should've started with a div 3 or 4 but I like to challenge myself. Wish me luck

Why there's no 1,024-2047 places: 1 TON each?

Good Luck!

Abcd speedrun

I'm nervous about participating after three months of not participating in this competition.

Hope I can learn something new from this round, good luck everyone!

TON's price seems to fluctuate a lot.

Well prepared round. My congratulations to the authors and testers. Definitely one of the best ones I've given these few months.

The contest was mexed up

Please announce last-minute round duration changes more prominently. I participated this round thinking it was 2 hours, and I couldn't compete for more than 2 hours today. I believe this situation might not be unique to me.

Can someone explain why my code isn't TLE for 1870D - Prefix Purchase?

me spending 10 minutes trying to understand what problem C was trying to say

Thanks for the fun contest!

How to solve E?

How to solve D?

What is pretest 3 on problem D? T_T How do we solve D?

Huge dislike on this contest. Spent half of contest time trying to eliminate TL on correct linear solution for C and correct NlogN solution for D on Kotlin. C successfully, D unsuccessfully. Shame on you.

Hopefully no FST today...

Nvm

I could only think of a bruteforce solution to D.

After ~1.5 hours of thinking I still don't get, how can you optimise $$$O(n^3)$$$ into $$$O(n^2)$$$. Can someone give a hint pls?

Can we solve E with tries or is it some dp or something else that my small brain couldn't think of?

I may have not solved D, but at least I have passed first 4 pretests.

Also this problem is somewhat similar to this problem, we can find largest index with min cost and estimate max amount of possible operations.

Actual solution is probably something like this: keep a vector of candidates with costs higher than min, for each new candidate pop every candidate that is worse, this would work in $$$O(n)$$$ because each element would be added and removed from the vector at most once, then to calculate the final answer use a difference array (I cba implementing this rn).

Good problemset

I can only think of a crazily long segment tree solution for D,which I have not enough time doing it, and for that I think there has to be some easy-to-write way.

Did anyone else think that for C with min(Aj, Ai) they meant min(Aj, Aj+1, Aj+2 ... Ai)? That cost me 30 minutes and a headache...

A: The maximum possible mex is min(n, x+1), so we need k<=min(n, x+1). Then when k==x we can let a={0, 1, 2, ..., k-1, k-1, ..., k-1}, when k!=x we can let a={0, 1, 2, ..., k-1, x, x, ..., x}.

B: Let bi=(1<<t). If n is even, then the operation will make the t-th bit of x become 0, and if n is odd, it becomes 1. So if n is even, all operations will make x smaller, and if n is odd, all operations will make x greater. Therefore, we can use every operations or no operation to get the maximum and minimum values of x.

C: If t doesn't occur in a[i], the answer of t is 0. Otherwise, for any i,j with a[i]==t, a[j]>=t, we have b[i, j]==b[j, i]==t, so the rectangle need to contain (i, j) and (j, i), then it contains [j, j]. Therefore, If we denote S={i: a[i]>=t}, the answer of t is 2*(max(S)-min(S)).

D: First assume the i0-th operation has the minimum cost, then we need to perfrom at least floor(k/cost[i0]) operations in total. So we can assume that we perform that many i0-th operations, and we can change them into i-th operation later for i>i0 (which costs cost[i]-cost[i0] coins). Then assume cost[i1]=min(cost[j]:j>i0), then we can change as many as possible i0-th operations into i1-th operation to improve the answer. We repeat this process until there are no better operations or we spent all coins.

E: Let time[t] = the minimum i such that we can get answer t in subarray a[1, i]. For each i, we need to update for every t such that time[t]=i. The naive approach is: for every i<j<=k, we let time[t^mex(a[j, k])] <-min- k. But this approach will be O(n^3). To optimize this solution, during the dp process, we need to keep ptr[m]= the minimum k such that there exist some j, i<j<=k and mex(a[j, k])==m (we can do this by pre-calculating mex[j, k] for all 1<=j<=k<=n). The the dp formula will be time[t^r] <-min- ptr[r].

F: Let balance(t) = the change of the rank of t after sorting. Then we can see for t with same number of digits, balance(t) is monotonic. Therefore we can get the answer by binary search, the time complexity is O((log(n))^3).

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