Блог пользователя I_love_tigersugar

Автор I_love_tigersugar, 5 лет назад, По-английски

1255A - Changing Volume

Author: UncleGrandpa. Prepared by UncleGrandpa

Tutorial

1255B - Fridge Lockers

Author: I_love_tigersugar ft. MikeMirzayanov. Prepared by UncleGrandpa

Tutorial

1255C - League of Leesins

Author: MikeMirzayanov. Prepared by UncleGrandpa

Tutorial

1254A - Feeding Chicken

Author: I_love_tigersugar. Prepared by I_love_tigersugar

Tutorial
Source code

1254B1 - Send Boxes to Alice (Easy Version)

Author: MofK. Prepared by UncleGrandpa

Tutorial
Source code

1254B2 - Send Boxes to Alice (Hard Version)

Author: MofK. Prepared by MofK and UncleGrandpa

Tutorial
Source code

1254C - Point Ordering

Author: ngkan. Prepared by ngkan

Tutorial
Source code

1254D - Tree Queries

Author: I_love_tigersugar Prepared by I_love_tigersugar

Tutorial
Source code

1254E - Send Tree to Charlie

Author: MofK Prepared by: MofK

Tutorial
Source code
Разбор задач Codeforces Round 601 (Div. 1)
Разбор задач Codeforces Round 601 (Div. 2)
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5 лет назад, # |
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Auto comment: topic has been updated by I_love_tigersugar (previous revision, new revision, compare).

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5 лет назад, # |
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Why my submissions are skipped? :/

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5 лет назад, # |
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orz

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5 лет назад, # |
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For Problem D I just sorted the adjacency list by size of the subtree (then flatten it with euler tour). That way even if nodes are heavy I can update all the subtrees in $$$sqrt(N)log(N)$$$ since it will have at most $$$sqrt(N)$$$ different value in sizes and I can update several subtrees of the same size in one single range update (because they are in one complete range in the euler tour) and you want to add the same value $$$\frac{1}{n}d(n-sz)$$$ to all of them.

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    5 лет назад, # ^ |
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    Hacked. Each update for a subtree size should call only 1 Fenwick Tree update instead of 2. Or you can do this.

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    5 лет назад, # ^ |
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    I did the same thing and was getting TLE, but then I realized that I can optimize the worst case if I batch update queries for the same node, so if there is 1 node that has sqrt(2*n) different values, worst case will be Q/2 modifies which should reduce the constant by 2 and make it work. It now passes.

    https://codeforces.net/contest/1254/submission/65470890

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    5 лет назад, # ^ |
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    I use similar idea about different subtree size. But I also divede the queries into sqrt(Q) parts then get a O(NsqrtN) off-line algorithm: We use an array to modify the updates and calculate the presum after each part. Then for each query with type 2, we just need to calculate the updates from the queries with type 1 in the same part. For all Nsqrt(N) such pairs of queries, we sort them by dfs order using bucket sorting. Then we insert the pairs into corresponding vertex's vector, then for each vertex we calculation the values of all the queries corresponding to it one by one with the vector containing its subtrees with different size and their dfs orders, just like a merge sorting.

    Code:65993177

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5 лет назад, # |
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I_love_tigersugar

For editorial of Div2E2/Div1B2, shouldn't it be min(Si%k, k - Si%k) instead min(Si%k, (k-Si)%k)?

And btw, anyone has the link for the markups used for blogs/comments on CodeForces?

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    5 лет назад, # ^ |
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    It was fixed, thank you!

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    5 лет назад, # ^ |
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    does the idea of grouping k chocolates into their coordinates meridian work? I did it on contest, but got wa on pretests of E1 (but not on pretests of E2) and not sure if it is a bug or wrong solution.

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      5 лет назад, # ^ |
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      I think it will work, but then the hard part here is you don't know the number of candies in each part to determine the median.

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        5 лет назад, # ^ |
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        I did it in the contest (65365892). Basically, you just divide all candies into groups of $$$K$$$ and move each group into its median box. Just need to be careful because the number of candies at a time can exceed $$$K$$$.

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          5 лет назад, # ^ |
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          So E1 editorial solution can be done for E2 also with some modifications (or a lot of modifications :D). Am I right?

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          4 года назад, # ^ |
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          How can we prove that median will give optimal answer

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Notice that we can map the given rectangle to an array. In other words, there exists a path in the rectangle that goes through every cell exactly once. can someone explain this part

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5 лет назад, # |
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I don't understand why the round was rated for me. On what basis did you decide that the mistake in problem B did not affect me ? This mistake completely ruined my contest. I wasted 100 min in B. And when I up-solved C and D I could solve them quickly. this could have been a very good contest for me but now I lost 50 points. and yet you refuse to make round unrated

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5 лет назад, # |
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How I did D:

Call a vertex heavy if it has more than $$$T$$$ neighbours.

For updates at $$$u$$$, first update the complement of the subtree rooted at $$$u$$$. Then, if $$$u$$$ is heavy, just keep track of the update at $$$u$$$. Otherwise, update the subtrees rooted at the children of $$$u$$$. This is $$$O(T\log(N))$$$.

For queries at $$$u$$$, first query the value at $$$u$$$. Then, jump upwards to the next heavy vertex until we reach the root, and update the answer with the values at these heavy vertices. This is $$$O(\log(N)+N/T)$$$.

Setting $$$T=\sqrt{N/\log(N)}\approx93$$$ gives $$$O\left(Q\sqrt{N\log(N)}\right)$$$ total. Runs in under half a second on system tests but I found an input that makes it run in 2.6 seconds.

(seems like a less intelligent version of this $$$O(N\log(N))$$$ solution: https://codeforces.net/blog/entry/71534?#comment-559222)

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5 лет назад, # |
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An alternative solution for D. Tree Queries.

It's obvious that for each "modify" operation we can spend $$$O(degree_x \log n)$$$ time naively updating the answer using BIT in the tree-dfs order. And now we can get some improvements. For each node we initially choose one of its sons of the largest size. For a "modify" we only update its father's "subtree" and the heaviest son's subtree. And for each query, we not only calculate the answer in the BIT, but also jump up to the query node's ancestors that haven't updated the query node yet and calculate the extra answer.

It can be shown that there are at most $$$O(\log n)$$$ such ancestors to deal with. So the total complexity is $$$O((n+q) \log n)$$$, with quite a small constant.

Code: 65403262

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5 лет назад, # |
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My solution to Tree Queries:

  1. For a set of updates, we can easily calculate their contributions to each node in $$$O(n)$$$ time -- for each node $$$u$$$ we get the sum of $$$d$$$ of all operations that $$$v=u$$$, then iterate all neighbours of $$$u$$$. Since we do not need to support online query, the updates can be done with difference in linear complexity.

  2. Also it's easy to tell an update's contribution to a specific node $$$u$$$: we just need to get the size of the subtree of $$$u$$$ when we root at $$$v$$$. This can be done in $$$O(n\log n) - O(1)$$$ complexity.

We calculate the contribution to each node every $$$\sqrt n$$$ operations, and when query on a node we consider the latest $$$\sqrt n$$$ updates' contribution to it. This works in $$$O(n\log n+n\sqrt n)$$$ time.

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5 лет назад, # |
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Can someone explain in Div2E2, how can we assume that if we are taking k-S[i]%k from i+1 th element then it will not become negative ( does it have enough candy to give). The author has said something related to this doubt as 'S[i]>S[i+1]'. Can someone give an intuitive proof of th this. Thanks in advance.

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5 лет назад, # |
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In div2 E1 or (div1 B1) how to prove that maximum number of divisors of a number less than 10^5 is 240 (It is given in editorial but no proof has been provided) .Thanks !

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    5 лет назад, # ^ |
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    Hi. To prove that, you can either factorise all intergers from $$$1$$$ to $$$10^5$$$ to count the number of divisors it has, or just google search for the list of highly composite numbers. For estimation purposes, the number of divisors a number $$$n$$$ has is about $$$O(n^{1/3})$$$

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In problem B1, it suffices to iterate through only the prime divisors (taking as k) of the total number of chocolates.

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Can anyone explain this for me :"A number ≤10^5 has at most 240 divisors". I tried to create number that can have most divisors but all I found was 128 divisors (120120). Thanks in advance.

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    5 лет назад, # ^ |
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    So that's why they said "at most" XD... Moreover 120120 is greater than 10^5 XD...

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    5 лет назад, # ^ |
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    I checked... it's actually 83160 with 128 factors.

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    5 лет назад, # ^ |
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    Sorry, it is in 83160 with 128 divisors. I mistook this problem for the original problem(which has a constraint of 1e6)

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      5 лет назад, # ^ |
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      thanks, but I still wonder how to get maximum number of divisors for number with value that does not exceed some specified boundary.

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        5 лет назад, # ^ |
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        Please see my comment above. There also exists a way of backtracking. You just need to backtrack for a sequence of $$$k_1, k_2,...k_n$$$ such that $$$(k_1+1)*(k_2+1)*...*(k_n+1)$$$ is maximum, $$${p_1}^{k_1}*{p_2}^{k_2}*...*{p_n}^{k_n}$$$ $$$\le N$$$ and $$$k_1 \ge k_2 \ge k_3 ... \ge k_n$$$ But on practical I think referring to the highly-composite number list is a more convenient way

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5 лет назад, # |
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@prof.PVH

pls explain this..

STATEMENT : "Now it is clear that we will divide the array into segments, such that sum of each segment is divisible by K, and move all the chocolates pieces in that segment into one common box."

lets say my input array is : [ 6 7 9 7 6 7 7 ]

now the sum of the array is 49 ...

and optimal divisor(k) for this array would be 7 ...

Why do I need to move all the candies into common box ?

we can see that we need to pass one candy from index '2' to index '0' and one candy from index '2' to index '4'... and that would 4 seconds...

and we are not moving all the candies to any common box..

so can please explain that statement

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    5 лет назад, # ^ |
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    That statement is about the easy version, where each element is 0 or 1.

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      5 лет назад, # ^ |
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      snacache

      I realised that I after posting the comment :p ... my bad, I opened both questions, and I thougth I was reading E1, but I was actually reading the E2 :p .

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5 лет назад, # |
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I still don't understand tutorial for feeding chicken? Does anyone have better explanation?

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    5 лет назад, # ^ |
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    You can solve the 1xn problem assigning equal or almost equal quantities of rice fields to each chicken, for example, if there are 32 rice fields and 6 chickens, you go 6, 6, 5, 5, 5, 5, giving the non-rice fields in between the rice fields to the corresponding chicken.

    Now "cut" and "stretch" the original rectangle into one long strip or array of 1x(r*c). You can do that in several ways, like zig-zag, spiral, etc, and solve like above.

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There is a way that cost $$$O((n+q)\log n)$$$ for problem D.Here it is.

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5 лет назад, # |
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Problem E2 is very nice ! Thank you!

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Div2 Task E2 is awesome.

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fridge locker is completely a case of circular rotation

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In problem E2, is there a proof (or at least help me understand) for this fortunately true statement : " The only concern is that: is there any scenario when there exists some i such that $$$S_i > S_{i+1}$$$, which is indeed a violation? Fortunately, the answer is no. ".? Thanks <3.

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    4 года назад, # ^ |
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    _LNHTD_ Did you get it? If yes, then can you please explain? I've spent 4hrs on this problem, but couldn't come to a conclusion.

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5 лет назад, # |
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Div2. E2/ Div1. B2:

"But if you have solved the problem to this phase already, you can easily realize that we only need to consider prime k, because if k is composite then picking any prime divisors of it will lead to either a better result or an equal result."

Why and how?

UPD: Understood. If all $$$a_i$$$ are to be made divisible by some composite say p*q (p and q are primes), then they are also made to be divisible by p and q, at (in the worst case) the same cost. So it is sufficient to only consider the primes (as they guarantee an equal, if not better, answer).

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    4 года назад, # ^ |
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    Can you please explain in Div2E2, how can we assume that if we are taking k-S[i]%k from i+1 th element then it will not become negative ( does it have enough candy to give). The author has said something related to this doubt as 'S[i]>S[i+1]'. Can you give an intuitive proof of this? Thanks in advance.I've already spent hours but couldn't get to any conclusion. the_hyp0cr1t3

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      4 года назад, # ^ |
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      If $$$S_i \% k \le (k - S_i \% k)$$$, then it is optimal to move $$$S_i \% k$$$ chocolates from $$$S_i$$$ to $$$S_{i+1}$$$.

      Otherwise $$$(k - S_i \% k) < S_i \% k$$$. It is optimal to move $$$(k - S_i \% k)$$$ chocolates from $$$S_{i+1}$$$ to $$$S_i$$$. We know that $$$S_{i+1} \geq S_i$$$, so there are at least $$$S_i \% k$$$ chocolates in $$$S_{i+1}$$$. And $$$(k - S_i \% k) < S_i \% k$$$. So there are always enough.

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5 лет назад, # |
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In Div1 B1 why moving all the ones to $$$temp[(i+i+p-1)/2]$$$ is optimal than to moving ones to $$$(temp[i]+temp[i+p-1])/2$$$ ??

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5 лет назад, # |
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Hi, MofK, question regarding following statements:

The only concern is that: is there any scenario when there exists some i such that Si>Si+1, which is indeed a violation?

Since S[i]=sum(a[0]..a[i]), thus S[i+1]-S[i]=a[i+1]. If S[i]>S[i+1], then a[i+1]=S[i+1]-S[i]<0. To my understanding, all a[i], either before or after any operation, should be positive. If I were correct, then there should be no case that S[i]>S[i+1].

Anything I am missing here?

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4 года назад, # |
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We can enforce the solution to iterate each Si from 1 to n−1 and always choose to decrease if there is a tie

In fact, even if we choose to increase for every tie, we can enforce a non-decreasing sequence. We just have to fix and follow it.

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    4 года назад, # ^ |
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    Can you please explain in Div2E2, how can we assume that if we are taking k-S[i]%k from i+1 th element then it will not become negative ( does it have enough candy to give). The author has said something related to this doubt as 'S[i]>S[i+1]'. Can you give an intuitive proof of this? I've already spent hours but couldn't get to any conclusion. Thanks in advance. towrist

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4 года назад, # |
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I am getting WA on test case 7 for the problem 1254B1 - Send Boxes to Alice (Easy Version), the code seems to be logically correct to me, where am I getting wrong?: 86285300

UPD: Fixed

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17 месяцев назад, # |
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If someone is trying to solve Div1-D by decomposing queries into square root blocks, but getting TLE because of the constant factor introduced by LCA for finding last node on path from $$$u$$$ to $$$v$$$ (given $$$v$$$ is ancestor of $$$u$$$). You can just manually check all adjacent nodes of $$$v$$$ to find the suitable one whenever $$$v$$$ has $$$\leq 5$$$ neighbours, and do normal binary lifting otherwise. Pretests might be slightly weak as this condition significantly reduces runtime.