atcoder_official's blog

By atcoder_official, history, 14 months ago, In English

We will hold Japan Registry Services (JPRS) Programming Contest 2023 (AtCoder Beginner Contest 324).

We are looking forward to your participation!

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14 months ago, # |
  Vote: I like it -76 Vote: I do not like it

is it rated?

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    14 months ago, # ^ |
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    Please refer to this post for detailed information on Rated/Unrated registration.

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14 months ago, # |
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Why the rating changes in recent round rolled back?

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    14 months ago, # ^ |
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    For at least 3 of the last ABC rounds standings were updated and rating changes recalculated, but I haven't seen any announcement regarding this matter.

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14 months ago, # |
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atcoder beginner contest is like div 3 contest of codeforces and is very good for beginners everyone should participate.

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    14 months ago, # ^ |
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    ++ i feel atcoder abc are so much educative

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      14 months ago, # ^ |
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      I want to solve A,B,C,D.

      I'm a beginner.

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    14 months ago, # ^ |
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    I don't think problems with a difficulty like ABC323G will appear in Codeforces Div.3

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14 months ago, # |
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Solve in A-B-C-E-D,although I may be not able to solve e.

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    14 months ago, # ^ |
    Rev. 3   Vote: I like it -10 Vote: I do not like it

    So, what things should I say?

    Today's contest is even easier than the previous one!

    I only took 23 munites to flash through problem A, B, C, D!

    Upd in 2023.10.14. 21:15 CST: Today is my first time solving the problem A, B, C, D and E all! Water!

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14 months ago, # |
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I might be wrong, but I vaguely remember solving F on Leetcode long ago.

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14 months ago, # |
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Does anyone have any hints for problem F? I can't even solve the easier version where $$$c_i = 1$$$ for all $$$i$$$.

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14 months ago, # |
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For problem D could anyone tell what's that only wrong answer : submission

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    14 months ago, # ^ |
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    zero

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      14 months ago, # ^ |
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      I don't know why would someone think of putting 0 in the test case

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        14 months ago, # ^ |
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        They could have put multiple test cases of zeros, such as 0, 00, 00000, etc.

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          14 months ago, # ^ |
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          The point is that the solution considers 0 as a perfect square

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14 months ago, # |
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A-F easy to think and code but agonizing to debug for me, got so much penalty :(

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    14 months ago, # ^ |
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    Can you tell my why this approach is wrong for F. https://atcoder.jp/contests/abc324/submissions/46583832

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      14 months ago, # ^ |
      Rev. 5   Vote: I like it +19 Vote: I do not like it

      To begin with, the assumption that if we maximise values of path from 1 to i, and extend them to get a path with maximum value for 1 to n, is wrong.

      Test case
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14 months ago, # |
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Why do we need to binary search the answer in F and why just a single depth-first pass doesn't work? I tried keeping the best possible pairs of values of numerators and denominators for each node, then calculating the best possible dp values for each node as well, but I got WA in 14 testcases. This approach does feel hacky, but I don't immediately see a reason why it doesn't work.

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    14 months ago, # ^ |
    Rev. 2   Vote: I like it +8 Vote: I do not like it
    Test case
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      14 months ago, # ^ |
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      For this test case I'm actually getting 0.107930595039702, which I believe is supposed to be $$$\dfrac{1101}{10201}$$$.

      Here's the code:

      Code
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        14 months ago, # ^ |
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        That case was created for soln, which calculates 1 to i paths.

        Since you are calculating i to n paths, switching the vertex on the same case fails it.

        Testcase
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14 months ago, # |
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Actually A-F (maybe even G) was easy to think, but the implementation...

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    14 months ago, # ^ |
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    ..were also easy (at least mine, except for G which I couldn't solve).

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14 months ago, # |
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solved G in 9min after the contest :(

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14 months ago, # |
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My solution for G is different from the editorial, so I will share here.

Each sequence $$$S_i$$$ can be represented with two intervals. $$$[L_i, R_i]$$$, which is the corresponding index interval on the original permutation, let's call it index interval. And also $$$[LV_i, RV_i]$$$, meaning that the numbers on the sequence $$$S_i$$$ can only be in that interval, let's call it value interval. Initially for $$$S_0$$$, we have $$$[1, n]$$$ for both index and value interval. If we correctly compute these two intervals for each sequence, we can use a persistent segment tree to recover the size of the sequence. This segment tree will have $$$N + 1$$$ versions. Each version corresponds to a prefix of the given permutation. The i-th position on the v-th version will indicate whether or not the number $$$i$$$ is present on the permutation's prefix of size $$$v$$$ (we will have either $$$0$$$ or $$$1$$$ in each position). My submission.

Details
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14 months ago, # |
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I tried to solve question c but it is failing in some cases. Here is my submission. can someone tell me why my code is failing like some testcases

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    14 months ago, # ^ |
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    Try the testcase,

    N = 2

    T' = aaaa

    S = [aaa, aaaaa]

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    14 months ago, # ^ |
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    • Line 98 is correct: if(diff<=1)ans.pb(i);
    • Line 112 is not correct: if(diff==1)ans.pb(i);

    They should both be using <=.

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14 months ago, # |
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By the way the video editorial of this contest is very cute lol

Some snapshot

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14 months ago, # |
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Can someone tell me why my code is failing like some testcases in Problem C

a,b = input().split() ans = [] for i in range(int(a)): c = input() if b==c: ans.append(i+1) elif len(b)==len(c): temp = 0 for j in range(len(b)): if b[j]!=c[j]: temp+=1 if temp>1: break if temp==1: ans.append(i+1) elif len(b)+1 == len(c): temp = -1 temp1 = -1 for j in range(len(b)): if b[j]==c[j]: continue else: temp = j break if temp!=-1: for j in range(temp+1,len(b)): if b[j-1]!=c[j]: temp1 = 0 break if temp1==-1 or temp == -1: ans.append(i+1) elif len(c)+1 == len(b): temp = -1 temp1 = -1 for j in range(len(c)): if b[j]==c[j]: continue else: temp = j break if temp!=-1: for j in range(temp+1,len(c)): if b[j]!=c[j-1]: temp1 = 0 break if temp1==-1 or temp == -1: ans.append(i+1) print(len(ans)) print(*ans)

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    14 months ago, # ^ |
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    Want a more diverse presentation? Using markdown