Блог пользователя Error_Yuan

Автор Error_Yuan, история, 3 месяца назад, По-английски

Thank you all for participating in the round!

We apologize for the wrong checker in problem E at the beginning of the contest, as well as the weak tests in problem B. To be honest, all the hacked submissions have similar logic and codes in B, which made me suspicious. Anyway, we are sorry for the inconvenience! >_<

Rating Predictions

2029A - Set

Author: Otomachi_Una
First Blood: Benq at 00:00:51

Hint
Solution
Code (C++)
Code (Python 3)
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2029B - Replacement

Author: wyrqwq
First Blood: Benq at 00:02:30

Hint
Solution
Code (C++)
Code (Python 3)
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2029C - New Rating

Author: Error_Yuan
First Blood: ksun48 at 00:05:34

Solution 1 (with hints)
Solution 2 (with hints)
Code (Solution 1, C++)
Code (Solution 2, Python 3)
Rate the Problem

2029D - Cool Graph

Author: Error_Yuan
First Blood: ksun48 at 00:13:24

There are many different approaches to this problem. Only the easiest one (at least I think so) is shared here.

Hint 1
Hint 2
Solution
Code (C++)
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2029E - Common Generator

Author: Error_Yuan, wyrqwq
First Blood: ksun48 at 00:23:50

Hint 1
Hint 2
Hint 3
Solution
Code (C++)
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2029F - Palindrome Everywhere

Author: sszcdjr
First Blood: taeyeon_ss at 00:16:50

Hint 1
Hint 2
Hint 3
Hint 4
Hint 5
Hint 6
Solution
Code (C++)
Bonus 1
Bonus 2
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2029G - Balanced Problem

Author: wyrqwq, Error_Yuan
First Blood: taeyeon_ss at 00:56:22

This problem has two approaches. The first one is the authors' solution, and the second one was found during testing.

Solution 1 (with hints)
Solution 2 (with hints)
Code (Solution 1, C++)
Code (Solution 2, C++)
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Bonus

2029H - Message Spread

Author: sszcdjr
First Blood: Benq at 02:04:40 (though unintended brute force), jiangly at 02:55:12 (intended, orz!)

Hint 1
Hint 2
Hint 3
Hint 4
Solution
Code (C++)
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2029I - Variance Challenge

Author: Error_Yuan
First Blood: rainboy at 01:33:40 (intended, the only solve in contest, orz!)

Hint 1
Hint 2
Hint 3
Hint 4
Hint 5
Solution
Code (C++)
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12 дней назад, # |
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fast edi yay!

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12 дней назад, # |
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I do C with binary search. It's really crazy to see the binary search in this problem.

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12 дней назад, # |
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I screwed up the 3rd claim for E I thought only primes less than equal to $$$\frac{A}{MinDiv[A]}$$$ will work (for composite A)

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12 дней назад, # |
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I had a slightly different approach for D: for each edge (u,v) with u!=1,v!=1, do operation (1,u,v). then you have a star-tree centered at 1, and a bunch of lone-nodes, then do as in the editorial to connect the lone-nodes

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12 дней назад, # |
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In B, if(count of 1 in s — count of 0 in r(don't check for last element in r)==1) cout<<"YES";

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12 дней назад, # |
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Hah, I like the Palindrome one

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12 дней назад, # |
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I thought of C as dp but screwed up because for some reason my mind didn't tell me that it's enough to store the maximum rating in the dp

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12 дней назад, # |
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rainboy is like just so cool ! is he indian ( i saw some grp photo ) ?

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12 дней назад, # |
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H: Thanks for setting the time limit just above my solution's runtime! :)

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12 дней назад, # |
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for c can any one show there recursive dp solution ?

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12 дней назад, # |
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O(n+m) solution for problem D 290751143

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12 дней назад, # |
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in problem E,why are we only considering lowest divisor of x i.e mind(x) for checking if x can be obtained from any generator?

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    12 дней назад, # ^ |
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    Because for any x, the minimum divisor is either an odd prime or 2, if it's 2 then it can easily be obtained, if it's not 2 then x — mind(x) is even which reduces the problem to checking even numbers only, and for a prime generator p not equal to 2, we can generate all even numbers >= p * 2

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      12 дней назад, # ^ |
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      why is it necessary that we get x from x-mind(x) only,its just written as a statement,why cant we get x from (x-y)+y where y is some other divisor other than the minimum one?

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        12 дней назад, # ^ |
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        We can always get x from another x — y. mind(x) is taken for proof's sake.

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        12 дней назад, # ^ |
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        Because, we can generate all even numbers from a certain point. x — mind(x) basically gives you the largest even number smaller than x that can produce x, let's call it y. That is because if mind(x) | x then mind(x) | x — mind(x). It's kind of like the euclid algorithm for gcd. If you subtract a divisor of a number from the said number, the result will still be divisible by the said number. Basically, you can use larger divisors but there is no point because the difference will always be even, and if we can generate an even number n then we can generate any larger even number. So if any divisor works, then any smaller one does too

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      12 дней назад, # ^ |
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      why are we sure that x-mind(x) can generate x?

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        12 дней назад, # ^ |
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        X-mind(x)+mind(x)=x,mind(x) divides (x-mind(x)) so we can add it in x-mind(x) to get x

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12 дней назад, # |
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Actually for problem E it turned out that it's possible to get AC with time complexity $$$\mathcal{O}(\sum n + tV)$$$, though it required me to use bitsets, fast input/output template and some number of identical submissions till i got the lucky one 290762920.

Also one of my TL'ed submissions during the contest passes with 1.3s after the system testing. Is there any reason? 290772979 and 290758813

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12 дней назад, # |
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I had a simpler DP approach for problem C:

Let $$$ \text{dp}[i] $$$ represent the maximum rating that can be achieved such that $$$ r \leq i $$$.

The base case is $$$ \text{dp}[1] = 0 $$$.

Either $$$ r < i $$$ or $$$ r = i $$$. Hence,

$$$ \text{dp}[i] = \max\left( f(\text{dp}[i-1], \, a[i]), \, \underset{1 \leq j < i}{\max} (f[j]) \right) $$$

The definitions of $$$ f(a, \, x) $$$ and $$$ f[i] $$$ are the same as given in the editorial.

The final answer is simply $$$ \text{dp}[n] $$$.

Code: 290775108

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    12 дней назад, # ^ |
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    i cant process this at all

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      12 дней назад, # ^ |
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      I think it's pretty clear for $$$r < i$$$, it's $$$f(dp[i-1], a[i])$$$.
      Now coming to $$$r = i$$$, you have to choose $$$l$$$ such that after skipping $$$[l, r]$$$, you get the maximum rating possible, that's what the second term represents. Let me know if it's still unclear!

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    12 дней назад, # ^ |
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    thanks!

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12 дней назад, # |
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script>hihi<\script

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12 дней назад, # |
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I feel like the problem statement of B could have been better

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12 дней назад, # |
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There's an $$$O(V^2)$$$ solution in G, see here: 290755809

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12 дней назад, # |
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My solution for D is a bit different:

First I try to remove all cycles, I do so by erasing all edges (u,v) with u != 1 and v != 1, so that all the remaining edges are in the form (1,u), we can achieve this by making moves of the type (1,u,v).
You keep track of the edges being added and removed using a set, this is useful because you keep track of which nodes are connected to 1 or are isolated.
Now all that remains are some isolated nodes and a tree with root 1: all I do is choose a random node A different from 1 in the tree, and for each isolated node B I make the move (1,A,B), as to add B to the tree, then I assign B to A and continue adding isolated nodes to the tree.
Of course, if the tree only consists of 1 and A doesn't exist, you stop there.

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12 дней назад, # |
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Thanks for the contest! About Problem H:

For the $$$\Theta(3^n)$$$ passing, I received too much bonus :) && :(

The problem itself is interesting, and upsolving in $$$O(2^n n^2)$$$ was a nice practice to me. Perhaps "to optimize it." in the editorial hides a tough detail — something like semi-relaxed convolution is unavoidable, right?

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    12 дней назад, # ^ |
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    I'm afraid your $$$\Theta (3^n)$$$ is way too fast, sad as one of the setters, but anyway congrats!

    On "hiding a tough detail", here is sszcdjr's opinion: nearly every Chinese knows it.

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      12 дней назад, # ^ |
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      Can you provide more details? I feel that there's a lot of room for improvement in the editorial quality for this problem. I'm stuck on $$$\Theta(2^nn^3)$$$ right now which is slightly too slow.

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        12 дней назад, # ^ |
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        I'm sorry but the editorial is written by sszcdjr... Judging from your time complexity, I guess you are having difficulty with the so-called subset convolution technique. (idk if my explanation is correct and clear but I hope so, so plz correct me if there is any mistake)

        We are given $$$f_{0\dots (2^n-1)}$$$ and $$$g_{0\dots (2^n-1)}$$$. We want to calculate

        $$$h_k = \sum_{i \operatorname{or} j = k, i \operatorname{and} j = 0} f_ig_j$$$

        Assume you know how to perform FWT. Then one can see $0$ (why I have to add a random LaTeX here to make the following LaTeX showing properly), $$$i \operatorname{and} j = 0 \iff \operatorname{popcount}(i) + \operatorname{popcount}(j) = \operatorname{popcount}(i \operatorname{or} j)$$$, so let's denote

        $$$F_{i,j} = \begin{cases} f_j, & \operatorname{popcount}(j) = i \\ 0, & \text{Otherwise.} \end{cases}$$$

        (the same for $G_{i,j}$), thus for each $$$s = \operatorname{popcount}(k) \in [0, n]$$$, we can calculate $$$H_s = \operatorname{IFWT}\left( \sum_{j=0}^{s} \operatorname{FWT}(F_j)_i \cdot \operatorname{FWT}(G_{s-j})_i \right)$$$ (it works because it's a linear transform), then $$$h_k = H_{\operatorname{popcount}(k), k}$$$.

        This would work in $$$\mathcal O(2^nn^2)$$$.

        Naturally we can do no adaptation to make it "online", because we calculate $$$h_k$$$ in the ascending order of $$$\operatorname{popcount}(k)$$$ so it still works in the same time complexity when $$$f, g$$$ turn out to have something to do with $$$h$$$ (but for NTT, the case is somehow different).

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          12 дней назад, # ^ |
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          Thanks. I understand how subset convolution works but the part that I don't get is the "online" part that you mentioned in the last paragraph.

          Edit: I think I might understand now... will try to implement later.

          Edit 2: Here's a sort of high-level explanation in case anyone has the same issue as I did.

          Like the editorial says, we have some formula where $$$f(S\cup T)$$$ depends on $$$f(S)$$$, $$$g(T)$$$, $$$h(S\cup T)$$$ where $$$g$$$ and $$$h$$$ are precomputed functions. I was calculating $$$f(S)$$$ in layers based on $$$|S|$$$, and at each step I did one subset convolution to get the contributions to $$$f(S\cup T)$$$. This involves doing one SOS transform on $$$f(S)$$$, multiplying with the SOS transforms for $$$g$$$ (precomputed), and then doing the reverse SOS transform afterward. The last step of doing the reverse SOS transform takes $$$O(n\times 2^n)$$$ time, and furthermore iterated over $$$|S|$$$ and $$$|S\cup T|$$$ for $$$O(2^nn^3)$$$ time complexity. The solution is to defer the reverse SOS transform step until you are on the relevant value of $$$|S|$$$, so it's only done once per size for $$$O(2^nn^2)$$$ time complexity.

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        6 дней назад, # ^ |
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        If you came to this time complexity, you definitely understand the editorial much better than I am. I am basically stuck on the first line. What does "Let $$$dp_S$$$ be the probability such that exactly the points in $$$S$$$ have the message" even mean? Probability at what point in time? And then the formula following about $$$\sum_S dp_S \cdot tr_S$$$ I also don't understand the meaning of. Could you please help me a bit here?

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          6 дней назад, # ^ |
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          $$$dp_S$$$ means that the probability that there exists some certain time, such that exactly the points in $$$S$$$ have the message.

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12 дней назад, # |
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I ENJOYED ALL PROBLEMS, KUDOS to the authors

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12 дней назад, # |
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In solution 1 of problem G, the notations are not clear at all. Can anyone can explain what does "saved" s pairs of LR mean? Also, what is preL and preR?

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12 дней назад, # |
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am I the only one who thought C was easier than B

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12 дней назад, # |
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Conclusion Forces

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12 дней назад, # |
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Amazing problem C. I had thought about binary searching the answer but didn't come up with the solution, but I managed to solve it using dp. It's really cool to see that both approach work.

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12 дней назад, # |
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D problem's solution is short and useful.My solution is find the rings and delete them, but I can't realize it.

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12 дней назад, # |
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    12 дней назад, # ^ |
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    I'm sorry to hear that... We didn't know the existence of this problem before :(

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      12 дней назад, # ^ |
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      Although the statements are very similar, solutions are different enough, no need to apologize :) had a lot of fun solving the problems!

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12 дней назад, # |
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C — Kevin's hacking shouldn't go in vain so he must choose at least one element to skip even it reduces his rating.

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12 дней назад, # |
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can anyone explain my tle in problem E 290847100 I think my time complexity is

nlogn + √mx*loglog(mx)*logn + n where mx=max of all ai, i varies from 1 to n and n<=10^5

how do it in my way? can we do it?

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    11 дней назад, # ^ |
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    For each testcase you allocate vectors (prime and small) of size mx, it takes O(mx) time. You can create and calculate these vectors one time at the beginning.

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11 дней назад, # |
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Could anyone help me prove why my solution for problem B https://mirror.codeforces.com/contest/2029/submission/290742944 is correct?

As it's binary, considering string s+r(exclude the final character of string r, as it's irrelevant to the result), only when the number of '0' equals to that of '1' do we return "YES". Otherwise, it would return "NO". Is it just a coincidence for my correctness?

pls help <3

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    9 дней назад, # ^ |
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    In essence, your solution mirrors AaravSin's solution. Let $$$x$$$ represent the number of 1's in s, and $$$y$$$ represent the number of 1's in r, excluding the last character. AaravSin's solution uses $$$x - (n-2 - y) = 1$$$, which is equivalent to your solution, expressed as $$$x + y = n - 1$$$. Hope it helps.

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11 дней назад, # |
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why I *3400, is this rainboy's opinion?

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11 дней назад, # |
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In Problem C, can someone explain something lies in this line .

if (a[i] < curg) curg++;
else curg--;

I'm confused about the case when $$$a_i=curg$$$, I understand both cases when $$$a_i>curg$$$ and $$$a_i<curg$$$, but I can't understand $$$a_i=curg$$$, why doing $$$curg$$$-- works just fine?

I'm assuming that when $$$a_i<curg$$$ that means when we take this number it will decrease our rating, so will increase $$$curg$$$ so we can try to get the point we just lost, and when $$$a_i>curg$$$ that means when we take this number our rating will increase so now we need to try to get $$$curg-1$$$ instead of $$$curg$$$, because we just got a new point.

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    11 дней назад, # ^ |
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    Note that:

    • Now $$$curg = g_i$$$, and we want to calculate $$$g_{i-1}$$$ based on it.

    Then we see that if $$$curg=a_i$$$, when the rating is $$$curg-1$$$, it will increase by $$$1$$$ after the $$$i$$$-th contest, because $$$curg-1<a_i$$$. Thus, $$$g_{i-1}=curg-1$$$ instead of $$$curg$$$.

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10 дней назад, # |
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.

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10 дней назад, # |
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Can anyone explain the proof of how the array g is constructed in the editorial of solution 1 of problem C (new_rating)?

This my current thought process but for some reason it does not reach me to the conclusion in the editorial?

So, our base case starts from the back. We know that g[n + 1] = k because before we take another contest after finishing the first n contests (all of them) we need a rating of at least k.

Because we have g[n + 1] we can start populating it backwards. So the general question is what is g[i] in terms of g[i + 1]. g[i + 1] basically gives us the minimum rating after the first i contests, so what that means is that I can get my rating for the first i — 1 contests, g[i], and somehow compare this with a[i] to see what g[i + 1] is. If (a[i] > g[i]), we perform better on the ith contest than we should, g[i + 1] = g[i] + 1, thus g[i] = g[i + 1] — 1. However, I'm stuck because the casework for g[i] depends on g[i], which we don't have yet, so it seems impossible.

May someone tell me how to fix my logic?

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    9 дней назад, # ^ |
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    For $$$a_i > g_i$$$, since all $$$a$$$ and $$$g$$$ are integers, we have $$$a_i \ge g_i + 1 = g_{i+1}$$$.

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10 дней назад, # |
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in D why we dont pop elements of s?

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9 дней назад, # |
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The solution to D is very well explained.

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9 дней назад, # |
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Why does "the minimum x equals # of L-s+# of R-s−# of adjacent LR-s" and what means adjacent LR-s. Is it like if we have L at number i and R and number i+1. Can somebody explain? Thanks in advance!

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8 дней назад, # |
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I did B, by first calculating what's the max amount of 0's and 1's string s can absorb such that it cant be modified further(using stack), then i just iterated the 2nd string, checking if 0 absorption count or 1 absorption count falls to 0, and then we break,the loop.

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7 дней назад, # |
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The dp used in this is called state machine dp https://jimmy-shen.medium.com/dp-state-machine-ae3177c93a03 .