Vladosiya's blog

By Vladosiya, history, 18 months ago, In English

1833A - Musical Puzzle

Idea: Vladosiya, prepared: Vladosiya

Tutorial
Solution

1833B - Restore the Weather

Idea: myav, prepared: myav

Tutorial
Solution

1833C - Vlad Building Beautiful Array

Idea: Vladosiya, prepared: Vladosiya

Tutorial
Solution

1833D - Flipper

Idea: Gornak40, prepared: Aris

Tutorial
Solution

1833E - Round Dance

Idea: MikeMirzayanov, Vladosiya, prepared: senjougaharin

Tutorial
Solution

1833F - Ira and Flamenco

Idea: Gornak40, prepared: Gornak40

Tutorial
Solution

1833G - Ksyusha and Chinchilla

Idea: Gornak40, prepared: Gornak40

Tutorial
Solution
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18 months ago, # |
  Vote: I like it -52 Vote: I do not like it

first comment

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18 months ago, # |
Rev. 2   Vote: I like it +3 Vote: I do not like it

206652299

what's wrong in this code?

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    18 months ago, # ^ |
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    total_num /= ma[cur_ele]; is wrong.

    Unlike with addition/multiplication, you can't naively perform "division modulo 1e9+7" with the / operator. Instead you should multiply by the modular inverse of ma[cur_ele] (which is a way to perform division with modulo). To calculate the modular inverse of a number x, you can do x to the power of modulo-2 using a fast exponentiation function. More information can be found online.

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18 months ago, # |
Rev. 5   Vote: I like it +4 Vote: I do not like it

Much simpler solution for F just uses sorting and queue. Count the frequency of each element and use sliding window of size $$$m$$$ on the sorted frequencies. You can keep track of the product of the frequencies in the window using simple modulo math. If at any time you are holding $$$m$$$ consecutive elements (simpler definition of magnificent dance) inside your window, you add this product to the answer.

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    18 months ago, # ^ |
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    Did the same. (Although didn't have enough time to solve during contest)

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    18 months ago, # ^ |
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    Your solution doesn't work for

    k=6, m=3

    1 8 16 30 31 32

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      18 months ago, # ^ |
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      You are right... now that I look at my code I am so surprised it got accept... your case isn't even unusual or anything. It is beyond me why a similar one is not in the official test set. I am remove my submission so to not confuse anyone.

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      18 months ago, # ^ |
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      Is this related to the presented algorithm or the implementation?

      I implemented the same idea in my solution and it works for this case. It also gets AC on the judge. Was this test case added to the tests after the contest?

      Is there a general reason why this greedy approach with sliding window would fail?

      My submission is here: https://codeforces.net/contest/1833/submission/206977596

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        18 months ago, # ^ |
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        The idea was correct. It helped me understand the editorial's solution. The problem was with the shared code. His sliding window wasn't checking if all the elements inside the window were consecutive.

        While implementing I was referring to his code and couldn't understand how he was doing consecutive checks. So I tried using test cases that weren't consecutive beforehand and it failed but the same test case got the correct answer when tested on the editorial's solution.

        About your code. You are checking if the elements between the left and right pointers are consecutive in the else statement of while loop. So you are maintaining consecutiveness.

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18 months ago, # |
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A greedy idea for G:

Consider a node X that is the parent of m leaves

if m>2: The solution does not exist

if m=2: Two leaves and X form a branch

if m=1: Only one leaf (called Y) Move Y up 1 node (set parent of Y is also the parent of X, so that X and Y are siblings)

Repeat the process until reaching the root, which can be solved by DFS or BFS

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    18 months ago, # ^ |
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    207336476 what's wrong in this code? Please.

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      18 months ago, # ^ |
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      Check this test case:

      4

      1-2 2-3 2-4

      I assume that you forgot the case when there is only the root left after running DFS

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18 months ago, # |
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An O(n) Solution for D: 206614690

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18 months ago, # |
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In G, it is sufficient to just cut edges leading to subtrees with a size that is a multiple of 3, which leads to a very clean solution. Of course, some basic check for validity is also needed, such as making sure the correct number of edges were removed and that there is a proper amount of nodes.

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18 months ago, # |
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A greedy solution for G which works in O(NlogN):

First root the tree(Take 1 to be the root) using dfs. For creating a branch, consider the leaf node at maximum depth. For this I used a priority_queue of pair<int,int> and then extract the node with maximum depth. For this to be in a branch, this node along with its parent has to be in the branch. Now for the 3rd node, if the parent has another child which is not part of another branch then take it otherwise take the parent of the parent as the third node. Now if the parent of the node at maximum depth has more than 1 other child(apart from the max depth node) then a solution to this problem does not exist i.e. output -1. Also if any of the nodes i.e. either the parent of a node or the case in which parent of parent of node is considered and that node is already part of another branch, then the solution does not exist i.e. output -1. Rest is the implementation and processing part which is there in this solution:

206591154

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18 months ago, # |
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My simple greedy approach for G using degree and dfs: https://codeforces.net/contest/1833/submission/206667701

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18 months ago, # |
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For G , I calculated the diameter of the tree and performed a simple dfs from one of the leaf nodes of the diameter , here is the code : 206572278

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    15 months ago, # ^ |
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    It's late but still wanted to share my two cent on your solution approach. To be honest, you can take any leaf node. No need to pick the diameter. That's because any leaf node would be one of the end of a branch. Once you make a cut, the next node would either become a leaf node or it would form a single branch(eg. next node is the middle node of a branch and it has only two children). I have modified your solution slightly and it passed: 218094662

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    4 months ago, # ^ |
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    why did you do dfs from one of the ends of diameter?

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18 months ago, # |
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An O(n) solution for D is here: 206665067

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18 months ago, # |
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On the problem G, I just try to go DFS on a tree, for a vertex u and vertex v is a direct child of u and if v is already searched, I'll check if the size of subtree at vertex v would add to the size of subtree at vertex u so that the size of subtree at u is still less than or equal to 3, if yes, I merge these two vertex in DSU, otherwise the edge connect u and v will be cut. After the DFS, I check all the component in DSU if the size of all of them is equal to 3.

But I dont really know how to prove this greedy solution, I just feels like to do it and it got Accepted

This is my solution: 206610493

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18 months ago, # |
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Solution for probelm F giving WA in TC-4. please help me to find out.Link

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18 months ago, # |
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In the editorial of problem F, the definition of prefix product should be $$$p_i=c_{1}\cdot c_{2}\dots c_{i}$$$ or $$$p_i=c_{i}\cdot p_{i-1}$$$, Please fix it, thanks.

I have another question about this part: if $$$p_{i}=0$$$, $$$p_{i+m}=0$$$ at the same time, but there is actually no zero in the interval $$$[i,i+m]$$$, this way of calculation may be wrong.

Example: $$$n=6$$$, $$$m=3$$$, $$$c=[1,0,1,1,2,1]$$$, now $$$i=3$$$, we found that $$$p_3=0$$$ and $$$p_6=0$$$ but actually $$$c_3\cdot c_4\cdot c_5\cdot c_6=2$$$, so this is incorrect.

If there are other special properties that make this never happen please point it out to me, thank you.

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    18 months ago, # ^ |
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    Since $$$b$$$ (the unique and sorted array) and $$$c$$$ (their frequencies in $$$a$$$) is derived from $$$a$$$ (the original array), there is no way of having a number occurring in $$$a$$$ and having frequency $$$0$$$.

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18 months ago, # |
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Finally became cyan :)

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18 months ago, # |
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How is the output for the 4-th test in problem D the maximal permutation you can achieve? isn't the correct answer when l=2 and r=6?

yeah i understood no need to reply

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18 months ago, # |
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In the C question solution what does .split() do?

def solve(): n = int(input()) a = [int(x) for x in input().split()] a.sort() if a[0] % 2 == 1: print("YES") return for i in range(n): if a[i] % 2 == 1: print("NO") return print("YES")

t = int(input()) for _ in range(t): solve()

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    18 months ago, # ^ |
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    It splits a string into a list of tokens separated by whitespace. More info can be found here.

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18 months ago, # |
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I made a video editorial for this contest's first 5 problems, i.e. A to E. It has Hindi commentary so if you know Hindi then you can consider watching this video. Video Editorial Link — https://youtu.be/rXj5okWOy4k

Please give your valuable feedbacks in the comment section :)

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18 months ago, # |
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.

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18 months ago, # |
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Honestly I don't really understand what's the purpose of proposing something like problem D in division 3, which I think should be more educational, since beginner coders are the target audience here. What this problem is suppose to teach? Really anything, it's just heavy implementation and corner cases. I got the O(n) solution by myself something like 30 min after the contest and implemented the day after, just for the sake of doing it, being aware this is not worth from the educational point of view.

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    18 months ago, # ^ |
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    I wouldn't consider 30 lines solution heavy implementation... and if you came up with a more implementation-ugly solution (which seems to be in your case) than the model solution, then that alone teaches you that you can come up with a more elegant solution, so what is the issue here?

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      18 months ago, # ^ |
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      What I meant is that my main goal so far Is learning new things and, implementation apart, this problem does not teach anything at all. This is not exactly the kind of problem I would expect in a division 3. Am I wrong stating this?

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        18 months ago, # ^ |
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        It teaches you how to think about and handle corner cases :)

        Also, it is not "implementation heavy" at all, about 15 lines of Python.

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18 months ago, # |
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Does someone understand the solution for problem E in the editorial?? My approach was that each cycle greater than 2 had to be a separate dancing group so the last and the first person could connect. In the editorial code, it ignores these cycles of length > 2 now that it only takes in account the leafs(nodes with degree==1) in the graph. It only counts cycles when there are no leafs. Probably I have not seen an observation or something.

Can someone please explain me this solution:)?

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    18 months ago, # ^ |
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    If in a particular component every node has exactly two neighbors, it signifies the formation of a cycle. In this case, you should consider it as a round dance. Conversely, if at least one node only has a single neighbor (referred to as a bamboo in the editorial), this indicates two possible outcomes: you can either close a cycle by treating this deficiency as a wildcard, or you can link it to other bamboos to create a larger round dance. This is how I understand it, and I hope my interpretation is helpful.

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      18 months ago, # ^ |
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      I understand why there is a cycle when in a component every node has exactly 2 neighbours. But let's say I have 1->2->3->4->2. In this case the code will mark it as a bamboo, and in my intuition, this should be marked as a separate dance now that there is a cycle greater than 2. I thought it separated in 2. cycle : 2->3->4->2 AND bamboo : 1. But in the code I see the code only counting the node with degree equal to 1. Maybe I am really confused, not sure This is the code from the editorial that I am talking about. It seems weird that it only cares about the nodes with degree equal to 1 bool bamboo = false; for (int j: component) { if (d[j] == 1) { bamboo = true; break; } }

      If someone could explain this to me, I would appreciate it.

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        18 months ago, # ^ |
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        This scenario isn't possible because '2' represents a person who is part of a round dance and, as such, can only have a maximum of two neighbors.

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          18 months ago, # ^ |
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          Thanks, you're right. It even says it in the comments, I guess I mis read it.

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            9 months ago, # ^ |
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            i dont get it , im struggling to understand why its not a valid test case

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              9 months ago, # ^ |
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              If we look the input as an adjacency list, then we will have a graph with n edges. This graph has the property (1) each node as an outdegree exactly 1. And in the resulting graph(Round dance), each node must have degree exactly 2

              If we look the previous test case I stated: 1->2->3->4->2 Node 2 has 3 neighbors, meaning that we could not build a round dance.

              This means all nodes in a |cycle| > 2 will have a degree == 2. Given this, we will only be left with |cycles| > 2 and bamboos. Cycles with size 2 does not follows the propery that each node has degree == 2, so it is taken as a normal edge.

              Let me know if you need more help.

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                9 months ago, # ^ |
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                i got all of it except the test case part , i'm saying why cant we do 1->2->3->4->2 in 2 rounds

                first round 1->2->3->4

                second round 2->4->2

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                  9 months ago, # ^ |
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                  1->2->3->4->2 is not a valid test case node 2 would be neighbor with node 1, 2, and 4 The problem states that each node must have exactly 2 neighbors. The statement says each person remembers only 1 neighbor, meaning that the starting graph must be a subset of the ending graph

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                  9 months ago, # ^ |
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                  thanks for your efforts , i get it now

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                  9 months ago, # ^ |
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                  No problem, any other doubt or question is welcome

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    18 months ago, # ^ |
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    ummm, you can think it in a better approach.... we will store the the graph in a adjacency list. Then we can just run a dfs for every unvisited node(1-n) and if it gets visited we will mark it as visited. So the number of times the dfs has run is the max count, and while running the dfs we will also check if the graph has cycle, if it has cycle we will increase minimum value by 1, and at last we will just check if maximum is greater than minimum, if it is then we can increase minimum by 1, because the total maximum count will make another cycle. You can see the solution to get a clear idea 207292218

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18 months ago, # |
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Oh man, got super close on F, just needed to debug my prefix product code when the timer ran out

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18 months ago, # |
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I can't understand the meaning of problem E, can someone translate it into formal statement? Thank you very much!

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    18 months ago, # ^ |
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    Given an undirected graph where each node has a maximum of two neighbors, find the maximal and minimal number of connected components the graph can have while still fulfilling the initial condition (each node must have a maximum of two neighbors).

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18 months ago, # |
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Hello, I am newbie here Can anyone tell me why my code falling 206856992. The problem is C.

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    18 months ago, # ^ |
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    what's the meaning of "even" and "odd" in your code? it's too complicated.

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18 months ago, # |
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What does "bamboos" mean in the tutorial for problem E?

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    18 months ago, # ^ |
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    I would call them also "chains", basically just a sequence of connected nodes a — b — c — d ...

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18 months ago, # |
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nice contest

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18 months ago, # |
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A simpler solution of G is 206896718

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18 months ago, # |
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I am getting TLE exceeded on testcase 6 in question no. 2. While i think it is in the time limit. Can anyone help me out please? https://codeforces.net/contest/1833/submission/206588962

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    18 months ago, # ^ |
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    The main problem with your code is this line. while(cnt[ind]) ind++;
    This loop runs for some test cases, like the following:

    Spoiler
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18 months ago, # |
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I don't understand the 3rd method/solution for problem F. I am talking about this part:

"We will use the idea of building a queue on two stacks, but we will support prefix products modulo in these stacks. Time complexity is O(n) and we don't use that the module is prime."

I would appreciate if anybody could explain this part in more detail.

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18 months ago, # |
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Could you please explain examples in problem D:

4
4 3 2 1

why can't we just reverse segment with length 1 (without changing anything), and use empty prefix and suffix?

or

5
2 3 1 5 4

why can't we invert the first two elements [2,3] so it is 3 2 1 5 4 and then swap empty prefix and suffix [5,4] so it is 5 4 3 2 1 ?

feeling really stuck here, please help

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    18 months ago, # ^ |
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    I believe you're getting the 2nd step wrong. You can't arbitrarily choose prefix and suffix after reversing a segment. If you choose to reverse the segment p[l,r] then you have to choose segments p[1,l-1] and p[r+1,n] to swap.


    In the example you provided with the array [2,3,1,5,4], if you choose to reverse the segment [2,3], you should also swap the segments [ ] (empty segment before 2) and [1,5,4] (segment after 3). Following these steps, the resulting array would be [1,5,4,3,2].

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18 months ago, # |
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Hey!

I'm trying to find a test case that makes my submission give WA on problem G.

Currently, I'm getting WA on TC 158:

Here is my submission: https://codeforces.net/contest/1833/submission/207332694

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    18 months ago, # ^ |
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    Try this one.

    Test case
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18 months ago, # |
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Can anybody explain stack and queue sulution of problem F with more detail?

I am unable to understand the idea behind the code

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18 months ago, # |
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they don't even give answer to comments

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18 months ago, # |
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Can 2nd question can be solved in Log(n)time

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17 months ago, # |
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Can someone please check what's wrong with my solution? https://codeforces.net/contest/1833/submission/209606714

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17 months ago, # |
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Why my solution is getting the runtime error for problem F?

210284741

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15 months ago, # |
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I didn't get last part of tutorial of problem F, where possible approaches to calculate c[i] * c[i + 1] * ... * c[i + m]. In my solution, which got WA4, I tried to create prefix products p, so that p[i] contains product of amounts of occurrences of distinct values that appear till position i in sorted array a. The answer if magnificent dance for level a[i] exists, would be p[last occurrence of a[i] + m — 1 in sorted array a] / p[last occurrence of a[i] — 1 in sorted array a]. But because of overflows, the code got WA4

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11 months ago, # |
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#include <bits/stdc++.h>

using namespace std;

typedef long long ll;

ll mod = 1e9+7;

ll count(unordered_map<ll, int> &arr, int l, int r) {
    ll i, rtn=1;
    for(i=l; i<=r; i++) {
        rtn = rtn%(ll)(1e9+7)*arr[i]%(ll)(1e9+7);
    }
    return rtn%(ll)(1e9+7);
}

ll power(ll a, ll b)
{
    ll res=1;
    
    while(b) {
        if(b&1)
            res=((res%mod)*(a%mod))%mod;

        a=(a*a)%mod;
        b/=2;
    }
    
    return res%mod;
}

int main() {
    
    int t, m, n, i, l, r;
    ll ans, store;

    unordered_map<ll, int> cnt;
    vector<ll> cpyA; 
    
    cin >> t;
    
    while(t--) {
    
       
        ans = 0;

        cin >> n >> m;
        
        ll a[n];
        
        for(i=0; i<n; i++) {
            cin >> a[i];
            cnt[a[i]]++;
            if(cnt[a[i]] <= 1)
                cpyA.push_back(a[i]);
        }
        
        sort(cpyA.begin(), cpyA.end());
        
        l = 0; r = m-1;
        store = count(cnt, cpyA[0], cpyA[m-1])%(ll)(1e9+7);
        while(r < cpyA.size()) {
            if(cpyA[r]-cpyA[l] < m) {
                ans = ans%(ll)(1e9+7)+store%(ll)(1e9+7);
            }
            r++;
            if(r < cpyA.size())
                store = ((store%(ll)(1e9+7)*power(cnt[cpyA[l]], 1e9+5)%(ll)(1e9+7))%(ll)(1e9+7))*cnt[cpyA[r]]%(ll)(1e9+7);
            l++;
        }
        
        cnt.clear();
        cpyA.clear();
        
        cout << ans%(ll)(1e9+7) << endl;

    }
    
    return 0;
    
}
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    11 months ago, # ^ |
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    Can someone tell why I am getting memory limit exceeded?

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10 months ago, # |
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my solution is much simpler than the solution of $$$G$$$ in editorial: hint : isn't it optimal to put the vertex into a component which has the smallest degree currently?

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8 months ago, # |
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Can anyone suggest a problem, that is similar to problem F, but with these conditions:

  • exactly A (instead of m) students participate in the dance;
  • levels of every two dancers have an absolute difference strictly less than B (instead of m);
  • levels of all dancers are pairwise distinct;

Basically the same problem, but without this claim:

A dance [x1,x2,…,xm] is called magnificent if there exists such a non-negative integer d that [x1−d,x2−d,…,xm−d] forms a permutation.

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4 months ago, # |
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D can be solved in $$$O(n)$$$, why constraints are for $$$O(n^2)$$$

My submission

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5 weeks ago, # |
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problem E statement in case you don't want to spoil the problem :

there are n people dancing in a dancing floor each person can hold the hand of 2 persons at most.

in order for the dance to be a good dance it's shape must be a circle, a circle can be formed with 2 persons or more ,

now each person remembers only one dancing partner and he don't remember if there was a second dancer with them or not. your task is to find the minimum and the maximum possible dancing circles that were good in that night by deciding weather there was a second partner for each person and if there was then who was it