Привет, Codeforces!
В 11.06.2020 17:35 (Московское время) состоится Educational Codeforces Round 89 (рейтинговый для Див. 2).
Продолжается серия образовательных раундов в рамках инициативы Harbour.Space University! Подробности о сотрудничестве Harbour.Space University и Codeforces можно прочитать в посте.
Этот раунд будет рейтинговым для участников с рейтингом менее 2100. Соревнование будет проводиться по немного расширенным правилам ICPC. Штраф за каждую неверную посылку до посылки, являющейся полным решением, равен 10 минутам. После окончания раунда будет период времени длительностью в 12 часов, в течение которого вы можете попробовать взломать абсолютно любое решение (в том числе свое). Причем исходный код будет предоставлен не только для чтения, но и для копирования.
Вам будет предложено 6 или 7 задач на 2 часа. Мы надеемся, что вам они покажутся интересными.
Задачи вместе со мной придумывали и готовили Роман Roms Глазов, Адилбек adedalic Далабаев, Владимир vovuh Петров, Иван BledDest Андросов и Максим Neon Мещеряков. Также большое спасибо Михаилу MikeMirzayanov Мирзаянову за системы Polygon и Codeforces.
Удачи в раунде! Успешных решений!
Также от наших друзей и партнёров из Harbour.Space есть сообщение для вас:
Привет, Codeforces!
Пару недель назад мы с удовольствием провели вебинар с участием Сергея Гордейчика, директора по информационным технологиям Inception Institute of Artificial Intelligence.
В своем выступлении Сергей поделился своим анализом и инсайтами о том, как положительно и отрицательно искусственный интеллект используется во время глобальной пандемии COVID-19. Он затронул такие темы, как этика использования этой технологии и то, как она применялась на каждом этапе пандемии.
Мы знаем, что не у всех был шанс попасть на вебинар, поэтому мы подумали, что вам будет любопытно посмотреть слайд-презентацию.
Вы можете посмотреть её тут.
Если вам было интересно, сообщите нам об этом в комментариях, и мы сделаем все возможное, чтобы предоставить больше контента, подобного этому. Следите за последними двумя вебинарами в нашей серии вебинаров — они могут представлять интерес для вас.:)
Наконец, не забывайте, что в июле этого года Сергей ведет курс "Cybersecurity of Cloud, Big Data and AI". Курс будет на 100% онлайн, поэтому обязательно ознакомьтесь с ним на нашем веб-сайте. Если вы заинтересованы — вот тут ссылка.
Это все!
Удачи в раунде!
Поздравляем победителей:
Место | Участник | Задач решено | Штраф |
---|---|---|---|
1 | ksun48 | 7 | 188 |
2 | saketh | 7 | 264 |
3 | hank55663 | 7 | 320 |
4 | 244mhq | 6 | 109 |
5 | Radewoosh | 6 | 126 |
Поздравляем лучших взломщиков:
Место | Участник | Число взломов |
---|---|---|
1 | Hakiobo | 70 |
2 | napgod_pk | 67:-12 |
3 | Zaher | 71:-21 |
4 | VladProg | 60 |
5 | BohdanPastuschak | 62:-26 |
Было сделано 1115 успешных и 2003 неудачных взломов!
И, наконец, поздравляем людей, отправивших первое полное решение по задаче:
Задача | Участник | Штраф |
---|---|---|
A | neal | 0:00 |
B | neal | 0:02 |
C | ksun48 | 0:05 |
D | BohdanPastuschak | 0:05 |
E | ksun48 | 0:15 |
F | kort0n | 0:51 |
G | rainboy | 0:25 |
UPD: Разбор опубликован
Is something wrong ?? why there are no comments.
I hope there are no ugly geometry problems(like in Educational Round 87).
BTW glhf xD
is it rated for unrated??
.
read the comment in L's voice
Hey MikeMirzayanov, I have got TLE on D whereas i have used O(NlogN) Solution. When i resubmitted it after final standing it got accepted. Solution from contest — https://codeforces.me/contest/1366/submission/83442824 Solution After contest -https://codeforces.me/contest/1366/submission/83505708 They both are same solution.. Kindly look at the issue and try to resolve if possible
Video Tutorial for Problem A,B,C,D
i understood everything..... keep posting Div2.D regularly
Were are the meme squad ??
A sad meme :)
.
My D failed system tests duo to TLE, costs me 100+ rating points.
Same here bro,my D also failed :( I feel that the max_test(TLE test) should be included in the pretests. I may be biased because my solution failed, but I think once something passes pretests and it is on the edge of time complexity ==> maybe something like around 1e9 operations whereas maybe only 5 * 1e8 operations are normally allowed... then when it passes pretests, it is very hard for a person to question that maybe the solution might TLE. (I mean how can a person say whether it passed because it was just under time limit , or actually it wasn't supposed to pass?)
Therefore I think the max_test is a basic test which should be included. But yeah, maybe they intentionally left it out as it was an Educational Round.
We both could be master if not failed D!!!
I enjoy Codeforces comment section more than Facebook. But what's happened today!! Almost 3 hours past and only 2 comments.
I think the announcement was not there on the Home page earlier.
Though I enjoy everytime.. Here are the meme squad bro :v
Hey sorry for asking if this is discussed before but how come all the Educational Rounds are made by the same authors awoo, vovuh, adedalic, BledDest, Roms, Neon. PS: I love their contests it's just I'm pleasantly surprised.
I quit .
I really worship awoo. I am just trying to know why they make all Educational Rounds
I'm guessing Harbour.Space University signed a contract with Mike for publicity. As part of the contract, 2 contests per month must be held sporting the uni's name. Since this is a long term contract, Mike needed a reliable team of people to hold these (easier than finding a new team for each contest).
And one more thing they all are from same institution Saratov state U.
Afraid of WrongAnswerOnTest2 :(
Afraid of timelimited on 2 3 4 5 6 7 8 9 10.。。
I don't know but why I feel like this blog and the round are feeling bored. Weird!
It had only been 50 minutes since the blog was made public. Wait for few hours, I know my true redditers won't let you feel bored
I am not bored. I said if the blog and the round were a person then they seem bored. XD
Coding is Love ♥ Contest is the best option to judge yourself.. Thanks authors for all efforts . ♥
Waiting for testers' validation comment ;)
Educational round exist:
What do we say to Educational Div2 C? Not Today.
But every time the codeforces community writes a div2-only contest, somewhere in the world 3000 people with a rating of 2100+ are sad :)
ha ha ha
why Ashishgup has so much contribution by making only 5 contest,while pikemike and other authors of educational round has very less contribution?although respect to authors of educational contest,They are really doing great great great job.
Because Asishgup got a huge amount of upvote in his blogs while posting about contests.
Because Ashishgup is Indian.
Your text to link here... Have a look at this. Contribution is moreover dynamic and not static.
I hope this one is gonna be great. GL everyone
GL everyone!
I fear to comment anything on codeforces comment section because community just gives big dislike. Maybe this comment gets even more and this is the reason this is my last comment ever on codeforces.
It's interesting that people downvoted this comment, including me.
Thank you for pointing out this interesting fact.
The fact that you found it interesting is interesting.
Deleted.
why are these rounds called educational?
because they promote some particular university every time
Ah. So there is no actual difference between the normal contests?
unlike other contests, the problems you solve don't matter, solving E is the same as A, the difference between 2 participants with the same number of problems solved is the difference in submission times.
the difference is that in the official rank list, div 1 participants are also included although their rating remains unchanged.
There should be some kind of tutorial that explains all this..
hi i m new to Codeforces, Today will be my second contest but was just curious to ask why cant we register from 0 to 5 min before contest. Due to this i missed previous contest.
I know this comment will only get downvotes....But I will say it.. The contests by Ashishgup has another level of craze... The contributions of Ashishgup is evidence of the fact...
I think the contests were Ashishgup were great, but saying they are just on another level is too much. Today's contest was great too, I loved C today. And other problems were great too.
Get ready for a rating drop.
Wrong answer on test 2
Wrong answer on test 2
Wrong answer on test 2
Wrong answer on test 2
Adequate profile picture for the situation
This meme is previously posted by Nieb_Hasan_077 here
PS: I miss you Jhin
I'll comeback soon don't worry
Educational Round Exist !
I can hear this meme.
Educational = MultipleTestForces
Hello. I am new to codeforces. When they say that the rules are the extended ICPC rules, does anybody know where these can be found. Also, are you allowed to use the internet for APIs and finding other information?
Yes, just submit working solutions, then everthing will be fine. But do not talk to anybody while contest about the problems.
lol it looks like it's actually more efficient. Pigeoncopter
BledDest should stop making A/B problems in these rounds, as they are usually lengthy, uninteresting and their solution is usually just 4-5 if else statements, I mean no offence and I like his harder problems.
BledDest should seriously stop making A/B problems in these rounds, they are usually uninteresting, lengthy and their solution mostly just have 4-5 if-else statements. I mean no offence here, and I do enjoy solving your harder problems.
Any examples?
.
Well, I can agree with the fact that ER87 A contains some cases, but the model solution for ER88 A contains zero if/else statements.
Keep doing the good work having simple brute force questions as A and B are not interesting and doesn't add anything to the contest.
But there were almost no if-else and casework in today's A and B.
Guys please stop posting shit tier memes just to increase your contribution.
Increase in codeforces traffic.. kudos to codeforces community
Increase in codeforces traffic.. kudos to the community
which website?
This is the first time when small statements are troubling me!! (Sed Lyf)
How to solve D?
test every prime factor (if the prime fac divides multiple times go mult all of them in p^n) and its reciprocal, one of them should always work if there is a solution. i'm not sure if you can do that for every single prime factor (and thus auto break the loop saving time) but i didnt want to take any chances. reason this works is because one number will have all the prime factors and one number will have none, if the 2nd is 100% coprime then when u add the second to first theres absolutely 0 chance of it being mod p, however its possible that its mod a different prime so thats why i tested every prime (it ran within the time constrants since primes under sqrt(10^7) was like 400 or something)
First observation is that d1 and d2 are co-prime (or else (d1, d2) would divide a). Second observation is that if (d1 + d2, a) = x then x divides a (obviously). So, there shoudln't be any divisor x of a such that x|d1 and x|d2. From here it's obvious how to solve: get number x2 = a / x1 so that (x1, x2)=1 and if there are no such solutions, then there is no solution
Why d1 and d2 are or must be coprime?
If they have a common factor, it will remain in (d1 + d2). Which will turn out to be a part of the gcd of (d1 + d2) with a. Hence the gcd will be greater than 1.
Of course I believe it if you say so.
But still, if d1 and d2 have a common factor, a has it, too? Why this?
If $$$gcd(d_1,d_2) = x$$$ then $$$d_1 + d_2 = x \cdot (d_1/x +d_2/x)$$$.
Also, $$$x$$$ must divide $$$d_1$$$. Then, $$$d_1 = x\cdot y$$$ for some $$$y$$$.
Therefore, $$$a = d_1 \cdot z = (x \cdot y) \cdot z = x \cdot(y \cdot z)$$$ for some $$$z$$$.
Then, $$$x$$$ divides $$$a$$$.
Finally, we have that $$$gcd(d_1+d_2,a)$$$ must be at least equal to $$$x$$$.
I understand, thanks!
There was a mistake, if $$$d_1$$$ divides $$$a$$$ and $$$d_2$$$ divides $$$a$$$ does not imply that $$$d_1 \cdot d_2$$$ divides $$$a$$$, but $$$lcm(d_1,d_2)$$$ divides $$$a$$$.
Hey, I implemented this approach but this is giving me TLE, Could you send me the link to your submission if you have solved it??
My submission: https://codeforces.me/contest/1366/submission/83499523
First of all, u can't do that while reading the numbers, because the complexity becomes O(n * sqrt(VAL_MAX)) which is quite big. So, you might think of precalculating something. That something is the smallest prime factor or every number <= VAL_MAX. This can be done with a sieve and the time complexity is very small. Check this out (https://codeforces.me/contest/1366/submission/83421836)
if ai have only 1 prime divisor, then -1
if a[i]%2=0 then a[i]=2^k * x, so pair (x,2) alway true
if a[i]%2=1 then a[i]=p1^x1*p2^x2*.... which (pi<p2<...) then pair(p1,p2) alway true
TRY TO PROVE THEM !
case of even is obvious, any idea/hint on proving the other case?
case of odd
call p1+p2=2^x*k of course because p1 and p2 odd
so if gcd(ai,p1+p2) != 1 mean gcd(ai,2^x*k) != 1
->gcd(ai,k) != 1 because gcd(ai,2^x)=1
(*) we have p1 < k < p2 and gcd(k,p1) = 1 because p1+p2 % p1 != 0 (similar with p1)
to have gcd(ai,k) != 1 so k must be a prime or product of some prime whicH ai divisor. It is impossible
SORRY FOR MY BAD ENGLISH
Using seive you can find the spf(smallest prime factor) array for all numbers till 10^7.
Then to query a number num, divide num by spf[num] till num isn't divisible by spf[num].
if num==1 answer doesn't exist, otherwise answer is (spf[num], num)
Can you prove this approach?
Yea, So the trick which i used is to basically find 2 coprime numbers d1 and d2 such that both are divisible by the number and the product of both is the number.
If d1 and d2 are not coprime, they will have a common divisor which will also be divisible ai
There may be many ways to find such 2 numbers d1 and d2, I just used one of them
Will any 2 co-prime numbers work? I think not. If A[i]=30, gcd(2+3,30)!=1. So they must be some particular coprime. I intend to know the thought process behind it.
I missed d1 and d2 need to multiply to the number in my reply. I didn't try to prove this mathematically but with intuition this came out to be true for every number
Edit: So consider 4 prime numbers a,b,c,d (with relevant powers) with a as spf.
For a+b*c*d to be divisible by the number ai, a+b*c*d needs to be divisible by either a,b,c,d but you can clearly see this isn't possible since none of these 4 numbers can be taken common from the sum. So ai can never be divisible by it.
But, then if I take d1 and d2 as 2 distinct primes then still they can't take a common factor out of these. Like for 30, I've 2, 3 which don't have any common factor among themselves but even then their sum=5 have the common factor which divides 30.
Can I get the reason why this doesn't happen when we take all primes with relevant powers?
Ok, I got the reason that 5 is another prime factor of 30 which still divides the sum of d1 and d2. So, I need to take all the factors into consideration for d1 and d2 and not leave any, this is to ensure that d1+d2 doesn't have any prime common with
a
, and that can only be done if I cover all the primes by d1 and d2.Actually it can be proved like this:
Let, x = A[i].
Addition of 2 no.s be say z. Now possible gcds of x & z are multiples of one of the prime factors of x. Without any loss of generality, lets say multiple is 1, and gcd be 'p'.
Sum of 2 no.s is divisible by primes which are present in both summands. If one of the two does not have 'p', then 'p' can't be a divisor of their addition. But since we are using spf and the rest of the product, we ensure all primes are present in either of the 2, still no prime lies in both summands. Hence the proof follows.
Spf may work I don't know the proof for it, but two summands being greater than p and not divisible p can also result in gcd being p. Consider case of 3&5
Thanks, I have updated my proof.
Nice proof , Made my day buddy!
"Sum of 2 no.s is only divisible by primes which are present in both summands." This statement seems wrong. Take case of 2 and 3. Their sum is 5 which is a new prime and sum is divisible by it and not by primes of summands.
See Here how I am able to understand the approach. Suppose a=(p1^x1)*(p2^x2)*(p3^x3)*...(pn*xn) where p1,p2..pn are primes. Now let's take spf=p1 so after dividing we are left with x=(p2^x2)*(p3^x3)*...(pn*xn).Now x+spf=p1+(p2^x2)*(p3^x3)*...(pn*xn).So you can see there is no common factor between x+spf and a.Hence they are coprimes and x+spf cannot divide a.
But the question is why is it necessary that gcd ( (p1^x1)*(p2^x2)*(p3^x3)*...(pn*xn) , p1+(p2^x2)*(p3^x3)*...(pn*xn)) = 1. Am I missing any trivial proof?
See my comment.
This approach is really nice, in contest I was just fooling around with stupid half witted solutions.
See If $$$a_i$$$ is prime or primes power then it is obvious that the answer is not possible.
Lets consider the case where $$$a_i = \prod_{j=1}^{m}p_j^{k_j}$$$ and where $$$m > 1$$$ and let $$$p_1$$$ be smallest prime (which we can easily get using classic sieve).
So in this case sharath101 argues that we can use the pair $$$(d_1, d_2)$$$ as $$$(p_1, \prod_{j=2}^{m}p_j^{k_j})$$$. Indeed $$$d_1+d_2 = p_1 + \prod_{j=2}^{m}p_j^{k_j}$$$ is not divisible by any $$$p_j$$$ for $$$j \in [1, m]$$$ and as a direct consequence $$$\text{gcd}(d_1 + d_2, a_i) = 1$$$ $$$\blacksquare$$$
Yes this the proof because (a+b)%c = (a%c + b%c)%c. If we take (d1+d2)%pi then it is always non zero as in case of p1 first modulo is zero but rest can't be zero as none of the rest pi's are divisible by p1. If we take any other pi then second modulo is zero but first is p1(it's smallest). And d1+d2 can't have anything common with A because we already checked above with all factors of A and none of them divides d1+d2.
Sorry for bad formatting I'm typing on phone
I understand that d_1 + d_2 with this split is not divisible by any p_j. However, why does d_2 need to be the remaining portion? Like why can't we have d_1 = p_1 and d_2 = p_2^k_2 * p_3^k_3 or even d_2 = p_2 * p_3 * ... * p_n?
Also, is every number which has at least two distinct primes in its prime factorization valid since we can make the split you mentioned?
$$$d_2$$$ doesn't need to be remaining portion, its just that his answer is very easy to construct as we directly get smallest prime factor using sieve.
And not all divisions into two sets will be valid, the prime factors sets $$$d_1$$$ and $$$d_2$$$ should not share any prime factor and both together should contain all primes of $$$a_i$$$ and only then we can be sure.
Bro help me plz in D
Let we have N ,
Now unique prime factorisation of N = p ,q ,r ,s
Now how can we claim that gcd((p + (q*r*s---)) , N ) = 1 , can u please explain
For ex : N = 210
then unique prime factors = 2 3 5 7
then how gcd((2+(3*5*7)) , 210 ) = gcd(107 , 210 ) = 1 ?
So consider 4 prime numbers a,b,c,d (with relevant powers) with a as spf.
For N to be divisible by a+b*c*d, a+b*c*d needs to be divisible by either a,b,c or d but you can clearly see this isn't possible since none of these 4 numbers can be taken common from the sum. So N can never be divisible by it.
.
Negative: $$$30 = 2 \cdot 3 \cdot 5$$$, but $$$a_1 = 2$$$ and $$$a_2 = 3$$$ are a wrong answer, since $$$2 + 3 = 5$$$.
A simple solution I came up with was as follows: Consider all primes $$$p_1, p_2, ..., p_k$$$ which divide $$$n$$$, with $$$k \ge 2$$$. Then we consider $$$a = p_1 + p_2 p_3 ... p_k$$$. Suppose $$$gcd(a, n) > 1$$$. Then at least one prime which divides $$$n$$$ also divides $$$a$$$, however this is a contradiction (fun fact: note that the same argument can be used in a proof of the infinitude of primes). Now if $$$k < 2$$$, note that there is no solution.
To implement this, we can do the following: using the sieve of Eratosthenes, find the product of all primes which divide $$$n$$$, and call it $$$f[n]$$$. Also keep storing the smallest prime divisor of $$$n$$$, say $$$g[n]$$$, then your answer will be $$$(g[n], f[n]/g[n])$$$ if it exists.
It is clear that gcd(d1, d2) = 1 otherwise gcd(d1+d2, a) !=1 Let p be the smallest prime which divides a. Then, a = XY where Y is the largest number such that Y%p !=0 If Y=1: we are sure that there can't be 2 divisiors>1 such that gcd(d1+d2, a)=1 So in this case answer is (-1, -1) Now we will prove with (d1, d2) = (X, Y) we are done. Proof: Note the following 2 identities 1. gcd(a,b) = gcd(a,a+b) 2. if gcd(a,b)=1 and gcd(a,c) = 1 then gcd(a,bc)= 1 Now note that gcd(X,Y) = 1 This implies gcd(X+Y, X) = gcd(X+Y, Y) = 1 By (2) It is clear that gcd(X+Y, XY) = gcd(X+Y, a). Hence, find p, then find Y by dividing a_i by p until you get a_i%p!=0. X = a_i/ Y If Y = 1 your answer is (- 1, -1) else (X,Y)
Simple Approach
For an $$$even$$$ number, answer will be $$$($$$ $$$2$$$, Product of remaining odd prime factors $$$)$$$
For an $$$odd$$$ number, answer will be $$$($$$ $$$1st$$$ Smallest prime factor, $$$2nd$$$ Smallest Prime factor $$$)$$$
And obviously, first, you need to check whether alteast $$$2$$$ distinct prime factors for a number exists or not. if not answer will be $$$($$$ $$$-1$$$, $$$-1$$$ $$$)$$$
Proof
For an $$$odd$$$ number,
Consider an example $$$ai$$$ = $$$105$$$ $$$( 3 * 5 * 7 )$$$. Ans is $$$(3, 5)$$$.
$$$3$$$ is $$$1st$$$ smallest prime factor and $$$5$$$ is $$$2nd$$$ smallest prime factor of $$$105$$$.
Let $$$x = d1 + d2 = 3 + 5 = 8$$$.
$$$g = gcd(x, 105)$$$ and obviously $$$g$$$ can't be $$$3$$$ or $$$5$$$. So $$$g$$$ should be greater than $$$5$$$, which is not possible. (why? Let $$$x' = g * e$$$ , $$$e$$$ is even number, $$$e$$$ must be aleast $$$2$$$. You can see $$$x' > x$$$ if $$$g > 5$$$, which is not possible.So $$$g$$$ has to be $$$1$$$.
For an $$$even$$$ number,
Consider an example $$$ai$$$ = $$$210$$$ $$$( 2 * 3 * 5 * 7 )$$$. Ans is $$$(2, 105)$$$.
$$$105 = 3 * 5 * 7$$$ (Product of remaining odd prime factors).
You can see $$$d1 = 2$$$ and $$$d2 = 105$$$, now forget about $$$d1$$$ and ask a question from yourself. What is the minimum $$$y$$$, I should add to $$$d2$$$ such that $$$g = gcd(d2 + y, ai) > 1$$$. And you will find you need to add smallest prime odd factor, for this case it is $$$3$$$ but we are adding just $$$2$$$ ($$$d1 = 2$$$, hence the answer).
How to solve Question D? Couldn't come up with a strategy.
83434115
Consider the cases where the number x is odd or even.
If x is even:
1. If x is a power of 2, then no solution exists
2. Otherwise, there exists some odd factor k > 1 and gcd(2+k, x) = 1
If x is odd:
Check for every factor k < sqrt(x) if gcd(x/k + k, x) = 1
Motivation: If x/k and k are coprime, then they would be the solution
Otherwise, no solution exists
This should give TLE, time for hacking :p, I am sorry dude.
jesus ur brutal
https://codeforces.me/contest/1366/submission/83472749 we just need to find 2 factor which are coprime to each other
Let's say we have a number 70 --> 2 * 5 * 7, now according to you we can select d1 = 2 and d2 = 5 as they are co-prime but d1 + d2 = 7 i.e, not co-prime with 70 (gcd(7, 70) = 7)? If you meant something else.. please explain again if possible..? Thanks..
such that d1*d2=a[i]
Did anyone get WA4 in D because the value of mod < 10^9 ?
I initialized the min as I always do with MOD. And yup, WA4.
How to solve F?
I figured out that the walk will always be a path (without repeated edges) except at the last edge. So I computed $$$dp[len][v] = \text{maximum weight ending at v of walk length len}$$$, for up to $$$len = 2*n$$$. for $$$q >= 2*n$$$, the weight will increase by a constant term.
Got WA on test 12 ? What am I doing wrong?
increases by different constants in O(n) ranges. its not same constant always.
Does it uses idea of convex hull ?
Yup
Is there no upper bound for the length of path after which we start taking the same edge?
It should be
m
, by the pidgenhole principle. Afterm
moves, assuming you've seen every edge once, it would be at least (if not more) optimal to have kept going back and forth once you reached the edge with maximum weight.This might give you the idea where it fails :
Input :
4 3 1000000000
1 2 1
2 3 100000
1 4 99999
Here you will be getting maximum answer by repeating the edge 99999. But there comes a time when 100000 will dominate.
Can you please tell what should be the output for this input?
My AC solution gives 2649959.
Let $$$f[u][k]$$$ denote the maximum weight path ending at $$$u$$$ using exactly $$$k$$$ edges. You can compute it for all $$$1 \leq k \leq m$$$ via $$$\mathcal O(nm)$$$ DP. Consider a long path using $$$x > m$$$ edges. It will always arrive at some node $$$u$$$ using some $$$k$$$ edges and repeatedly traverse the maximum weight edge adjacent to $$$u$$$ (let's call it $$$\text{max}_u$$$) the rest $$$x-k$$$ times. So the answer for $$$x$$$ is the maximum of $$$f[u][k] + (x-k)\text{max}_u = \text{max}_u x + f[u][k]- \text{max}_uk$$$ over all $$$1\leq u\leq n$$$ and $$$1\leq k \leq m$$$. Interpret this quantity as a line $$$y=mx+c$$$ and compute the lower hull for all of $$$\mathcal O(n)$$$ such lines. Now each line can give you the maximum answer for some range $$$[l,r]$$$ of values $$$x$$$. You can use binary search to find this range and add the contribution using some standard formula.
It will always arrive at some node u using some k edges and repeatedly traverse the maximum weight edge adjacent to u (let's call it maxu) the rest x−k times.
Why so? I don't really get the intuition behind it.
Suppose we have some path, the maximum weight of an edge is $$$w$$$, but in the end, we traverse some other edge having weight less than $$$w$$$. Since $$$w$$$ is the maximum weight in our path, we can replace the suffix starting with its first occurence with repeated traversal of this edge, and the total weight becomes greater.
Yeah, I thought this, but what if you still haven't visited the maximum weight edge? You can visit it and then repeat that edge from thereafter. Can't you?
This path is handled by dynamic programming — basically, for every possible vertex and every possible number of steps it computes the maximum weight of path to this vertex in exactly that number of steps. That way, we can consider each vertex as the one where we start walking along the maximum edge.
What I am asking is why is it sufficient to only consider m steps and then repeat the last edge? What if, let's say m = 2000, for answer for 1000000000, I start repeating the last edge after 3548 steps, will this always be unoptimal or always considered if we take only m steps? If so, why?
If the length of the path is greater than $$$n$$$, then it is not simple — it contains a cycle. Since the last edge is the maximum one, we can delete the whole cycle, since the average weight on it is not greater than the weight of the last edge.
Here's my AC 83474415 submission.
First part handles case $$$k \le n$$$ (dp)
second part handles $$$n+1 \le k \le q$$$ (convex hull of $$$mx_i * (k-n) + dp_i$$$).
Complexity is $$$O(n*m + n*n) = O(n*m)$$$ (you could probably solve second part in $$$O(n*log(n))$$$).
Is D a tricky problem? I couldn't find a way to solve it
In my point of view, it's a straightforward application of prime factorization.
god damn it I knew C solution after one minute from reading but couldn't code it without mistakes
Could you please explain your approach?
You have to first notice that if you take a path starting from (1,1) and (N,M) simultaneously, then all the cells on the i-th step must have the same value. This is true since we want our paths to create a palindromic string.
Now, we can run a bfs and store the number of cells with value of zero and one on each step.
For each step the cost to make every path palindromic is the minimum between the number of cells with value of one(1) on the i-th step and the cells with value of zero(0) on the i-th step.
Note: When saying "step" I mean the depth of the bfs search.
I did the same using dp[i][0] for storing number of 0's till i length form (1,1) Similarly dp[i][1] , and kept getting WA on 1st test itself and lost midway :( Did you mean that the last part has to be done for the complete string or till mid of the string
Till the mid of the string!
In order to stop at the right moment I had a variable that stored the expected number of cells at the i-th step. If the number of zeros and ones at the i-th step did not match that number, then the loop would stop and output the solution.
I tried to check all diagonals. Is there something wrong with this approach ?
1 0 1 1 1 1 1
0 0 0 0 0 0 0
1 1 1 1 1 0 1
first I check (1,1) and (n,m) then [(1,2),(2,1)] & [(n-1,m),(n,m-1)] and so on always updating my answer as ans+=min(total zeros,total ones)
Idk why I always failed at test case 2 ?
I did the same approach and it worked, you can check out my submission.
each line from both sides(that has the same color) should be the same so we count how many ones and zeros from each two lines and get the minimum from both and add it to the final answer except the line in the middle we don't need to change it I just couldn't code it with for loops it was hard I should've tried recursive way
This may be useful for you
https://codeforces.me/contest/1366/submission/83428525
you made me feel more stupid XD
That is basically what I did but implemented it using bfs rather than loops, since, as you said, it would be difficult to code.
Take a square, calculate its distance from (1,1) , (n,m) , say d1 and d2. Now use d = min(d1,d2). Put all squares with distance 'd' in array[d]. Do this for d from 0 to (n+m)/2. Then for each array[i], calculate how many elements you need to swap so that all the elements are same. Answer will be sum of swaps for all arrays.
observation : pair of cells at the same distance from 1,1 and n,m must have same no.
now we just need to implement it and the best way is https://codeforces.me/contest/1366/submission/83470989 (the code is very small so i guess there is no need to explain the implimentation)
Just in case you require a clean implementation of C, ignore otherwise
very nice algo ! thanks...
Feeling great. For the first time solved 5 problems in div2 contest. Thanks awoo. Hoping that my solution would pass the system test.
Oh got hacked in E. Bad luck.
What was in Test case 17 for F? :(
What's wrong with this code. Problem B : Your text to link here...
Please help??
Alright so I believe you got the algo wrong, the idea is to find the largest segment of numbers possible, by unioning segments that have an intersection with the current segment (initially the current segment is of size 1, and has value = [x, x]). Here order matters, you can't find the largest union with cur across all the segments [l, r] that they give, you'll have to find the largest union in the order of input. Have a look at my submission for more clarity: Link .
if there are no pair[l,r] contain x then the answer is 1, but in your code it's 0
Initialise L = x, R = x. Iterate through segments in line. If there is overlap between [l,r],[a,b] update the [l,r] segment to their union.
Initialise x to 1 and in the last if condition replace r-l+1 by r-l..this works fine
You can calculate answer in the end as $$$ Ans = R-L+1 $$$
But what if that condition is never met : Example : x=1 , l= 2 , r=4 ,m=1,n=5 epsilon_573
Answer will be 1. Because only x=1 can be 1.
I think you should say Ans = max -min +1 instead of r-l+1 just a bit of confusion over there . Hola !!
what is the 2nd test case for D? please tell
maybe A[i] = 156 for some i in array A.
i think A[i] = 7817670
210 is also a good case, expected -1, -1.
Why -1 -1? Why not 2 105?
I feel I was/am so close to solving E ... can someone take a look ? 83459283
That C. I first implemented a solution to traverse through all diagonals and then realised it isn't the right strategy (because of test case 1, part 2). I should look at the test cases carefully before implementing some crap smh. C turned out to be easier than I thought after making an observation (which you can see in my submission).
D was tricky. I don't understand (yet) why my solution fails (also, it's brute force maybe? so it'd TLE anyway). Maybe I need to look through some probable bugs in my code... Any ideas about D? I think I've seen a problem similar to F before but never solved. Any ideas on it too would be good. Thanks. I found the problems really interesting.
Can you tell about C? I couldnt come up with any idea
What observation did you make in C ?? after first reading I thought I had to convert all the strings into a palindrome (if they are not obviously),Moreover the test cases created more confusion.I still can't get the question clearly :( My bad
Observe that if you start your journey from the cell (1, 1) and (n, m), the reachable cell after the i'th step have to contain the same number(either 1 or 0). So decide greedily which one will minimize your answer.
Will our choice at length n-i of string would depend on our choice of i done earlier ?? (Will the value at cell(i,j) change )
I didn't get your query clearly. can you elaborate on it ?
for example if the matrix is [[1,0,0] , [1,1,1] , [0,0,1]] the final matrix will be of which form ??
stunareeb_09 there can be two possible forms we can obtain. they are
with the cost of changing the cells (2, 1) and (2, 3) in the 1st possible form and the cells (1, 2) and (3, 2) in the 2nd possible form.
What about the testcase 1 1 0 1 How do you handle cases like these where some paths after i'th step will be completely independent of each other ?
This is the case when the length of the path is odd. In this case you never have to change any value of the middle cell of the path since they are independent.
See that all squares that are equidistant from (1,1) and (n,m) need to equal.
.-._._-_.-_.-._-..
In D, you have to observe that if number has only one distinct prime factor than the answer is (-1,-1), otherwise, the number has at least 2 distinct prime factors.
If the number is even then it must have an even and an odd prime factor whose sum is an odd number and the result will be (2, any_other_prime_factor).
If the number is odd then it's all prime factors ar odd and if you sum up any 2 of them then you will get an even number and the result will be (prime_factor1, prime_factor2).
No gcd of two different parity is not always 1.Eg (6,15)=3
Ops, My bad. Yes, You are right. But the main observation is that since the prime factors are relatively co-prime so the sum of them will be coprime to the number itself.
Let's prove it by contradiction.
Let the number we are considering be
n
and the prime factors aref1
andf2
and the gcd of them isg = gcd(f1, f2)
.So we can write
f1 = g * a
andf2 = g * b
for some positive integersa
andb
.So
f1 + f2 = ga + gb = g(a + b)
.Since
n % f1 == 0
andn % f2 == 0
, son % g == 0
.Observe that if
g > 1
thenf1
andf2
can't be the answer.Since
f1
andf2
are coprime sog
must be equal to1
.Hence the sum
f1 + f2
will be coprime ton
.30 = 2*3*5
gcd(2+3,30)!=1
No, it's not. Suppose n=30, and its prime factors are 2,3 and 5. So sum of 2 and 3 isn't coprime to 30.
Sorry for my poor observation :(. The answer should be (factor1, n/factor1^k). I will come up with the proof later.
Let the prime factors of
a = p1^x * p2^y * ..* pm^z
. Taked1 = p1
andd2 = a/p1^x
Since bothd1
andd2
have no prime factors in common, their sumd1 + d2
has no prime factors in common witha
which givesgcd(d1 + d2, a) = 1
.Obviously the answer is
-1
if any ofd1 == 1 || d2 == 1
Code of this approach 83482353
How to solve G? I couldn't optimize my DP from n^3 to n^2.
Let $$$f[i][j]$$$ denote the minimum answer for suffix $$$s_i$$$ and $$$t_j$$$. If $$$s_i=t_j$$$ you can update with $$$f[i + 1][j + 1]$$$. Otherwise you have to match $$$t_j$$$ with some $$$k > i$$$ with $$$s_k = t_j$$$ and clean up the stuff between $$$s_i$$$ and $$$s_{k-1}$$$. Notice that before reaching $$$s_k$$$ the character labels don't matter: it's either append a character or delete one. So you essentially have a bracket sequence and you should delete some of the positions to turn it into a correct bracket sequence. Now you can either delete the current character and update by $$$1 + f[i + 1][j]$$$, or, you can skip the first balanced portion starting at $$$s_i$$$ and update by $$$f[\text{to}_i + 1][j]$$$ where $$$\text{to}_i$$$ is the right end of the balanced bracket sequence starting at $$$s_i$$$. You can precompute $$$\text{to}_i$$$ in $$$\mathcal O(|s|^2)$$$ and run the DP in $$$\mathcal O\left(|s||t|\right)$$$.
Addition: $$$\mathrm{to}_i$$$ can be found in $$$\mathcal{O}(|s|)$$$. Maintain the bracket positions in a stack. (83439327)
That assumes that if we don't delete a character or match if some character of t, we'll preserve the bracket sequence starting at that charactet. Why would we always preserve it?
It took me 47 minutes for A and 6 minutes for B.
Life's weird
I solved B, C, E and didn't solve A. Life's weird indeed.
Update: Nope. My E got hacked. I guess I'm just stupid today.
Mine too. Just one silly mistake.
Solved A and B fastly in first attempt. After that just saw my rank getting worse Sed life.
Solved A and B fastly in first attempt. After that just saw my rank getting worse and worse. Sed life.
Problems B and C were really nice. I didn't manage to solve D during the round, but it was also really nice. I just think that problem A was quite boring... Beside problem A, the contest was really nice!
Can anyone give me testcases where my Solution for B fails?
Edit: Nvm got it.
Just change the last line of your code to
cout << "1" << endl
and see the magic.Because at the end, a[x]=1 is always true. Feel sorry for you tho.
Edit: ok
200IQ play be Deathly_Hallows.
Kind suggestion for the future contests — please be consistent with moduli (is that plural from modulus?) over multiple tasks — there's less gotcha when in every task we deal with the same number.
Why is A- min((a+b)/3,min(a,b)).
after each move, total sum of a and b decreases by 3, so (a + b) / 3 will hold the answer, and min(a, b) because in case min(a, b) * 2 < max(a, b), the logic above wouldn't work, because in the best case you can decrease min(a, b) by min(a, b), case a = 18 b = 2 ans = 2
Case 1: If a >= 2 * b or b >= 2 * a, answer is clearly min(a, b).
Case 2: Now, let's assume this is not the case. Now, every time we will choose 2 from the larger pile and 1 from the smaller pile. A time will arise when the larger pile will become smaller (else it's Case 1). We observe that after this time arise the difference between the 2 pile sizes is at most 1. So, when we are unable to make any other tool, the remaining items in the piles can be (0, 0), (0, 1), or (1, 1). So, we must have utilised all the remaining items.
The description of B is really confusing and I was stuck at B for an hour. l_i≤c,d≤r_i this statement has two meanings: 1.l_i<=c and d<=r_i 2.l_i<=c<=r_i and l_i<=d<=r_i
can anybody give me the logic to solve A.
is the hacking just for fun and not rewarded with points?
In Educational and div3,4 rounds, Yes !!
Bro help me plz in D
Let we have N ,
Now unique prime factorisation of N = p ,q ,r ,s
Now how can we claim that gcd((p + (q*r*s---)) , N ) = 1 , can u please explain
For ex : N = 210
then unique prime factors = 2 3 5 7
then how gcd((2+(3*5*7)) , 210 ) = gcd(107 , 210 ) = 1 ?
This should help you, spf means smallest prime factor.
I you hack somebody which then falls behind you in ranking, you will raise one position. So just hack the ones right in front of you.
Why so many hacks in D?
Because D is the new G
because they failed with this case:
500000 9999991 9999991 9999991 ....
There was no pretest to eliminate solutions with complexity N(sqrtN) whereas required complexity was nlogn :
Educational Rounds always feel like Div 1.5
can relate, i'm doing 3 problems in div2 and div3, but in this educational I sucked a lot
Can anyone tell me what is wrong in my code for problem C?
https://codeforces.me/contest/1366/submission/83448870
I think your solution is failing for test cases where n>m. Let's say n=8 and m=2 then your solution might give Wrong answer.
I think you're right, thanks a lot!
One of the best contest till now! But I could not solve the errors in C on time.
Will $$$O(n*\sqrt{a_i})$$$ solution for D pass?
Nope
No, I tried.
Apparently my solutions passed all tests. :|
There are a lot of hacks in D ;)
Your solution is $$$O(n^{5 / 3}\cdot\sqrt{a_{i}})$$$
I just got hacked :/
What would be the approach for D? I used sieve (pre-computation) for O(N log2 ai) solution, taking all possible pairs of prime factors, but it turns out that for numbers like 210 (mentioned below in a comment), it doesn't work. What would the right process be?
Shortest Prime Factor sieve gives the desired complexity right?
I think no.
My solution passed on pretests but was hacked later.
https://codeforces.me/submissions/karthik1999rocks and https://codeforces.me/submissions/karthikchunduru.
These both accounts belong to the same person and he's changing his codes a bit to not get caught. He has cheated in previous contest too.
MikeMirzayanov
Could someone please explain C?.
Thank you
C is simple. Since all paths are palindrome, we need to have the bits as same at same distance from (0,0) and (n-1,m-1), unless they are equidistant from both(it'll happen only if n+m-1 is odd).
For eg, take {{1,1,0},{1,0,0}}. Here n=2,m=3 and n+m-1= even. At distance 0 from (0,0) and (1,2) we have 1 and 0, we need to change any one of them. Similarly at distance 1 from (0,0) and (1,2) we have 1,1,0 and 0, we need to change any 2 of them. So finally the answer for this case is 3.
We can ignore the ones that are equi-distant from (0,0) and (n-1,m-1), because the paths would be palindrome anyway. Hope that helps! 83443782
In problem D, why can't we choose any pair of prime divisors of A[i]?
It's possible that their sum will be divisible by some other prime factor. Ex: A[i]=3*5*7, choose 5 and 7.
case a[i] = 2 * 3 * 5, if we choose (2, 3), gcd(2 + 3, 2 * 3 * 5) = 5 # 1. A good strategy is choosing (2 * 3, 5)
Take the example of 30. The prime factors of 30 are 2,3 and 5. Now if we choose 2 and 3 __gcd(2+3=5,30)=5>1.
If A(i) = 210, no pair of prime divisors will satisfy the condition.
i wrote a basic brute force. Then saw this. All the multiples of 210 didint satisfy the condition.
Except
210*11
maybe. Solution: (2, 11).Oh yes. Thanks.
Right, so what is the good strategy for choosing such pair-(d1, d2), where d1 + d2 isn't a factor of A[i]?
Notice that we need the stronger condition gcd(d1 + d2, A[i]) = 1. Now let us suppose not. Then there is a prime divisor p that divides both A[i] and d1 + d2. To block this from happening, notice that if we ensure for every prime divisor p of A[i], p divides exactly one of d1,d2, then p won't divide d1 + d2. So if A[i] has more than one prime factor, we can pull out a prime factor completely(as the highest power that divides A[i]) as one divisor, and the rest as the other. Otherwise, A[i] = p^k for some k, and prime k. Then clearly there is no solution, as p will divide all non-unit divisors.
how to solve problem C?
All values which are having same manhattan distance from the source node and the destination node must have same values for the path to be palindromic. , I hope this helps ,
can we find all possible paths from (1,1) to (m,n) like bfs and store it in this (vector<vector> paths) and then check cost to make each path palindromic sequence?
Wouldnt It give you TLE! As all possible paths will be approx (n+m-2)!/((n-1)!*(m-1)!),by lucas theorem I think and it will be too much to get all the paths, Think intuitively.
can you share your code?
83419069
Задачу D ломают все кому не лень XD. Может стоит устраивать перетестирование, если на каком-то тесте сломалось 10+ решений?
Сейчас идёт стадия открытых взломов. После нее все решения протестируются на всех удачных взломах.
What is the tricky case that people are getting hacked on for problem E?
I managed to hack myself using this:
The test case I was using is
Basically, a lot of solution worked backwards, but never end up checking if the smallest value is actually in the array
Yeah. I did the mistake. Stupidity flourished me.
Can someone explain the idea behind A...I managed to solve it somehow but my approach seems to be very different from most submissions
Couldn't solve A and B so didn't attempt the contest. Sed Lyf
I did problem-C just after the contest. I saw the pattern was not able to do it in time.
Self hacking!
What is the hack for E?
What about 1366E - Два массива?
It is somehow related to stars'n'bars. I can create min and max positions for every bar, but I cannot think of a way how this works out in calculating ans.
Sombody explain?
one observation is if you are starting the ith subarray from index j then the (i+1}th subarray will definetely start from index p which will be always more than j... if you get the above point .. then make dp[i]--no of ways ways to start the ith subarray; dp[i]=dp[i+1]; suppose that there are 2 point from where ith subarray can start than dp[i]=2*dp[i+1]...and 1st subarray can only start from 0th index of array a; dp[1]=dp[2]. code-- 83476050
Sorry, I do not understand at all.
We have for every element in b[] a most left possible position where the segment can start, and a most right position where it can start.
So, how do we come from there to some dp?
Was i the only specialist who could not solve problem A?
Me, but back to Pupil after this
I was not able to think of a proper solution of prb A, but I remembered that I have solved this kind of question before...
Check this -> https://cses.fi/problemset/task/1754
It's kind of similar with prb A...:)
Thank you.
sorry for asking such a trivial question, could someone pls tell me the logic of A question?? Can't understand that
Sorry for asking such a trivial question, could someone pls explain me the logic of A question??
This will surely help.
Next time editorial before contest!
For people looking for solutions before the editorial comes out, I discuss the solution paths for all problems starting at 1:56:00 here: https://www.youtube.com/watch?v=qc07Al4sYHA.
Thank you!
Is there a dfs sol for C? I tried but couldn't solve it.
No DFS required, just some observations about what happens on a grid where you only go down and right. There's a picture of the observation at 2:00:00 here: https://www.youtube.com/watch?v=qc07Al4sYHA
In short, the only time you can visit space (i, j) is on turn (i+j-1).
https://codeforces.me/contest/1366/submission/83470989 maybe this will interest you
i BFSed it from both ends to check palindromes
Ok so this works for D. Can somebody explain why?
If $$$ num = p_1^{a_1}.p_2^{a_2}.p_3^{a_3}....p_n^{a_n}$$$
then split into $$$ d1 = p_1^{a_1} $$$ and $$$ d2 = p_2^{a_2}.p_3^{a_3}....p_n^{a_n}$$$
If only one prime factor, then there is no solution.
That's simple. If num had a prime factor p, that divided d1 and d2 both, we'd have
gcd(d1+d2,num)=p >1.
To resolve this case, we need to get the highest power of any prime factor in num, and assign it to d1. Now, ifd2=num/d1
, we can rest assure that, there can't be a p, such that it'll divide d1 and d2 both (easy to follow). So, p can't divide d1+d2, and thus we havegcd(d1+d2,num)=1.
d1%p1 is 0 and d2%p1 > 0
This implies, (d1+d2)%p1 > 0
Now, same goes for p2,p3,p4... as d1%p2 > 0 and d2%p2 is 0
So, None of the primes divisors divide (d1+d2). Thus gcd(d1+d2, num) is 1
Been looking throughout the comments for this. Thanks kind stranger!
This works because gcd(d1,d2)=1 implies gcd(d1+d2,d1*d2)=1
how to solve E!!
So here is my approach. First of all we can see the array A must contain all the elements of B and if not then there is no way to partition the array.
Now if there are multiple occurences of any bi in array A then we take the rightmost index having this value because since the array b in strictly increasing if we take this value in more than one subarray then the condition bi<bi+1 won't hold true.
After we have got the index for each of the m elements in array A let's take any i s.t bi<bi+1 and we have the element bi at index id1 and element bi+1 at index id2 in array A.So now the the minimum of array from index id1 to id2 should be equal to the bi as if there is any other element which is smaller than bi then again some subarray will contain it and it will become minumum of that subarray and the condition of array b will be voilated and there is no way to partition the array.
After we have checked all the above condition we are sure that there is some way to partition the array. Now for each element(the m indexes which we have got from array B in array A) we try to find how much we can go left in array A such that it will remain the minimum from that index. We can do it with the help of sparse table which stores minimum for each range and then applying binary search to find the leftmost position s.t it is minimum from that position to that index. After that multiplying all the ranges for each index we will get our desired result.
Here is the link to my solution https://codeforces.me/contest/1366/submission/83514102 and here is a similar problem which can be done using this technique https://www.hackerearth.com/problem/algorithm/class-monitor-c76dc24a/
https://codeforces.me/contest/1366/submission/83460041
For C I've used the method of equidistant pts from 1,1 and n,m should be same
But I'm getting WA on test 2 , can someone help ?
Your construction of distances if fairly complecated and most likely wrong.
Previous Comment Why don't you check this out? I have explained my approach (similar to yours) and also attached my code. It might help!
Can someone explain what exactly problem B statement says?
You get some segments and you are allowed to swap the elements of an array which are within these segements.
Then you should tell on how much different position a special element x can be moved by these swaps.
can you pls tell me what is wrong with my code 83494327
Well, it does not work like that.
Use a simpler aproach. Before the first segment there is one possible position, it is x. After the first segment there are two posibilities:
Think about how the segment of possible positions change while there are processed more input segments.
Как посмотреть тест, если он большой? Я не могу задачу решить потому что не могу увидеть тест.
Зачем тогда вообще выводить часть теста?
Upd Уже решил, но сил много потрачено. Ненавижу тех кто делает много тесто в одном, вместо того чтобы показать маленькие тесты. Это же обучающий раунд. Я хочу научиться! Мне не дают.
Это необходимо для того, чтобы не сидеть в очереди тестирования по несколько часов. Участников много, а потому каждый дополнительный отдельный тест влияет на очередь соразмерно количеству решающих данную задачу человек.
P.S.: невозможность подглядывать в тесты обучает более сложному навыку — дебажить самому.
Changing
Hello Codeforces!
toHello Hackforces!
would be better :DCan anyone tell me what is wrong with my solution for C? https://codeforces.me/contest/1366/submission/83477191
out of bounds maybe?
Video Tutorial for D-Two Divisors
i understood everything..... keep posting Div2.D regularly
Good to know. I'll try.
Can someone help whats wrong with this code https://codeforces.me/contest/1366/submission/83479883. I have traversed from both ends and have calculated total number of ones and zeros of each step and after each step added the min(ones,zeros) to the answer.
Can someone help what's wrong with my code https://codeforces.me/contest/1366/submission/83479883. I have traversed the matrix from both ends and calculated total number of ones and zeros of each step. Adding the min(ones,zeros) after each step to the answer.
why are you swapping m,n if n>m ?
Because I wrote my code assuming m>n and I am swapping their values if that's not the case. I think we can do this, right?
if you swap m,n the structure of a[n][m] will change. for exa — check this test case
1
4 2
1 0
0 0
0 1
1 1
your code output is 1 (right ans is 2) as it is considering a[n][m] as
1 0 0 0
0 1 1 1
I made the required changes and it worked. Thanks a lot. This is why I love this CF community!!
Is the logic at least correct?
The time limit for problem D was very tight. Probably, it can lead to some correct solutions failing too. Please check this awoo adedalic
My solution takes 1918ms :/
Problem E. Can someone please help me find issue with my solution? Was able to pass sample test cases but it failed on submission.
awoo Thanks for the great contest. If possible can you check?
Solution Link : https://codeforces.me/contest/1366/submission/83481690
Here is my greedy approach. For each element (at index i) in B, I keep three variables
My solution for D is kind of strange.
Firstly I tried only checking all the pairs of prime factors of
n
. That algorithm wasn't always correct, it fails for example onn=210
.Then I wrote a brute force solution and ran it on all
n<=10,000,000
. There were only several pairs of divisors that were found by the brute force which weren't found by the original solution.Those pairs were:
{{2,9}, {2,15}, {2,21}, {2,35} ,{3,10}}
. So I modified the original solution to firstly check those pairs and only then proceed, that got accepted :)This only happens for multiples of 210. Found the same pattern just before 5 minutes of round end but couldn't implement in time.
Can anyone explain how to approach E?
Problem D was just designed to satisfy hackers.
In problem E I didn't notice that B is increasing but was trying to solve for general B The best I could come up with at the contest was O(NM logn) Using DP[starting_point][segment_index]. So I was wondering if there is a better solution for that version of the problem!
While thinking after the contest, I've come up with a great visualization for problem A. So I want to share it.
If we think of our resourses left as a 2-dimensional space (amount of sticks, amount of diamonds) crafting one item moves us towards origin with a rules of a chess knight: it is either $$$(-1, -2)$$$ to craft a sword or $$$(-2, -1)$$$ to craft a shovel. So, now problem actually asks how many turns can you make with the knight in a position $$$(a, b)$$$ without moving to negative coordinates.
We can draw the grid out and see multiple cases. Now it becomes relatively easy to see that sticking close to main diagonal ($$$X = Y$$$) prevents us from falling to $$$X$$$-axis or $$$Y$$$-axis early and allows making maximum possible moves. However it is not always possible to reach main diagonal, if $$$X$$$ is more than $$$2$$$ times greater than $$$Y$$$ (blue area) or vise versa (green area), we will cross the axis faster. In such cases least coordinate does only matter and define the answer ($$$Y$$$ for blue area and $$$X$$$ for green area). Considering red area, sticking close to the main diagonal will balance out coordinates thus each move will reduce sum of coordinates by $$$3$$$, so we can repeat this $$$\lfloor \frac{X+Y}{3} \rfloor$$$ times. So this is the answer here.
I'm gonna lose it. WHAT IS TEST CASE 12 OF F???
awoo would you please take a look at this...
It seems that the hacking got stuck and now there are some hacking attempts in queue for over 30 mins :(
Why do we generally get the editorial for educational rounds a bit late than general rounds(where now a days we get just after the contest)? Is there some specific reason or its just that the writers prepare it late?
I thought that they might be waiting for the hacking phase to end but in div3 rounds ,editorials were out ever before the end of hacking phase.
MikeMirzayanov When i press "Hack it!" button i see this massage "Illegal contest ID". What is the problem?
May be you clicked on hack it without open the code.. 1st open the code then need to click hack it.but now hack phase over
Yes, i can hack after i open the code, but the hack button still works only in the interface of code viewer. This is not very obvious and i still think this is bug.
can anybody tell why my code gives WA 83494327
I don't quite understand what you intended to do while swapping. Nonetheless, one simple counter-example that I can think of is: 9 5 2 4 6 1 3
In this example, the first swap can reach from 5 to [4,6], the second swap does nothing. But in your code when you swap, you somehow push [1,3] into v.
You shouldn't need the inner for-loop though. You can simply keep track of the range, e.g. [4,6] after the first swap, and extend the range if [a,b] overlaps it.
I push [l,r] in v if this segment has x in it. If it doesn't have x I check if there exist a segment in v such that [l,r] and that segment in v have some common numbers . The swap is intended to check the second condition . for ex- when a=1 ,b=3,x1=4 and y1=6, it swaps the value bcoz I assume a>x1. So for them to overlap somewhere a<=y1. After swap a=4,b=6,x1=1,y1=3.Since 4<=3 is false [1,3] is not pushed. The program works fine on the counter example. UPD:Actually I got the answer,the problem was arising bcoz of swapping. If in a iteration I was swapping , I was not restoring values of a and b for next iteration. Btw thanks for your help.
Ah you’re right. Sorry for being misleading. Glad you found the problem!
Problem E is deceptively easy. There are a few things to notice. we consider the contiguous sub-arrays as tubs. 1> There can be no element less than b[j] occurring in that tub in the next tub.
2>As we iterate through n->1, we go on marking the LATEST element which is same as b[j]. We go on decreasing j from m-1 to 1 as we visit, and mark in the visited array the latest occurrence of the element b[j]. Notice that only latest occurrence is important. This is because of point 1>.
3>Now we also mark the latest element less than b[j] with index<j.this is because we can obviously not include that element in our subarray otherwise the minimum would be less than b[j]. 4>now there are only visited[j]-marked[j] possibilities. As the elements after the mark[j] have to be included in the previous tub otherwise the minimum would be less than b[j].
5>we also note that the minimum of the array must b[0],and the last subarray ends at n-1 index.
6>we simply multiply all the possibilities, and we are done.
Here is the attached code https://codeforces.me/contest/1366/submission/83496548
Nice problems. Thanks.
Why is there no Tutorial for round 89??? :(:(:(
Can someone help with the solution and approach with problem C?
Elements which are equidistant from (1,1) and (n,m) should all be same(Handle cases when m-n is even) .Hope this idea helps , in case you need more help you can go through comments above there are some pretty good solutions.Don't know why the Editorial is late.
Thanks but I am not able to understand some codes , I have understood 3/4th of the logic. We store the number of zeroes and ones at the sum of indexes. But the traversal to count the answer is confusing me
Can you post the code you are trying to understand
I have understood the logic of the logic for the filling of one and zero array. But the logic for the second loop why is it till (m+n-1)/2 ?
because you add the last half with the first half (1st one with last one,from first 2nd one with from last 2nd one.... like this).
Look at an example matrix .. to be equidistant from 1,1 and n,m that should be maximum sum
I think it is a sign of strength and nobleness to publish the editorial as early as possible, awoo
very weak tests
Ikr, I got E accepted in the last 3 mins for the first time in div2. Today I got up to find out it got hacked :(
that s sad:))
but i noticed that a lot of participants were hacked on problem E, before the hacks there was over 700 participants who solved it and after the hacks the number decreased to 500
Yea, because a very simple case was missing from the main tests. I realized it the moment I saw I got hacked. But yea, there's always a next time..
Hey MikeMirzayanov , I have got TLE on D whereas i have used O(NlogN) Solution. When i resubmitted it after final standing it got accepted. Solution from contest — https://codeforces.me/contest/1366/submission/83442824 Solution After contest -https://codeforces.me/contest/1366/submission/83505708 They both are same solution.. Kindly look at the issue and try to resolve if possible
The judging time is not a constant for a problem, so you re just unlucky. Try your best in the next round
Video Editorials
Problem (A+B) https://youtu.be/sZcVwzD6Ap0?sub_confirmation=1
Problem D: https://youtu.be/rAb7EeovCfA?sub_confirmation=1
where are the editorials?
The system notified me that the code coincided with another person's code at 1366B, so my submission was skipped. Code coincidence is just a coincidence, and my code has always been in this style. This is an easy problem to solve. The code length is very short. Code coincidence should be a relatively common thing. I don’t know how to fix it. (My English is not good, this text is generated by Google Translate)
Happened to me once. But its mentioned in the rules, if you can prove that the coinciding source code was present somewhere online before the start of the contest you'll have your rating back, but if you were compiling it online on Ideone or something publicly you'll have to forget about this contest!! If its the latter start compiling offline on your system. https://codeforces.me/blog/entry/8790
Thank you for your reply:D.My code is completely written by myself, and the similarity of the code is a coincidence. . .
Do you use any online compiler?
No, I just use VSCODE
Can you share link to two solutions?
Your solution 83404399 for the problem 1366B significantly coincides with solutions Arsengotovitsaksoru/83400791, iwriaw/83404399.
MikeMirzayanov
I think codeforces should look into these matters as for such small source codes, plagiarism detector should be turned off. There is a very high chance of coincident codes.
why my submission give tle with unordered map 83516884
but work fine with map 83517023
This
Shovels and Swords solution in detail
https://docs.google.com/document/d/1UtBnF611Ut2Xk13qkvenE5k-vhjGngg2C5SL4u_MS90/edit?usp=sharing
When will tutorials out?
That. Was. Fun.
Maybe my 1,740ms solution for D seems weak, beacuse I get 34 attempts to hack. And they can only hacked my 1,996ms solution for D.
That was really fun.)
Any editorial??
Educational round and no editorial, how ironic! We need EDITORIALS.
awoo.
I got this message:
"Your solution 83403019 for the problem 1366B significantly coincides with solutions Arianfk/83399024, diogoaos/83403019. Such a coincidence is a clear rules violation. Note that unintentional leakage is also a violation. For example, do not use ideone.com with the default settings (public access to your code). If you have conclusive evidence that a coincidence has occurred due to the use of a common source published before the competition, write a comment to post about the round with all the details."
But I didn't copy any code from anywhere! The solution was very short, of course it could be the same. I don't understand why only I got kicked from the contest.
I didn't cheat, I hope this is fixed (I think I did well on this round, wanted to see my rating change, very disappointing).
MikeMirzayanov
I think codeforces should look into these matters as for such small source codes, plagiarism detector should be turned off. There is a very high chance of coincident codes.
https://codeforces.me/contest/1366/submission/83524020 Can anyone tell the issue with my solution for b?
The first test in your code (when you compare
l
andr
tox
) enters even ifb
is true.So, for this test case.
The correct answer is 5 (all the range), and your program answers 3.
Where is the editorial?
I'm a Chinese and it's difficult for me to watch the editorial videos on Youtube without vpn
Is there anybody warm-hearted who can put the editorial videos on websites that Chinese can visit without vpn?
Thanks
Is using vpn a problem ?
No.
But I'm lazy.
Could you recommend a stable one?
Paid ones there are plenty, but if you want a free one try softether vpn client. You can make an ssh account in vpnjantit.com and connect to your preferred server.
If you're a student you can rent your own server from azure for free and use it as your own vpn server using softether vpn server manager.
Both are stable but the latter is much more reliable
how to solve E??
common man , in all this where is editorial
awoo please upload editorial.
Thanks all the authors because this contest makess me #specialist for the first time.. I know its a little tag but when you touch a new tier , its great feelings <3
I would like to sincerely thank the writers and coordinators of this round for taking the time to avoid confusing guarantees, especially in problem G. It is great to see Codeforces taking steps to improve, especially since it is already such a great platform with an amazing selection of great problems!
My reaction to first reading the problem at 54:13 and how happy I was that this adjustment was made might cheer your day :)
where is the editorial?
Anyone could hack this? For problem D, I use brute force and memorize the answer. 83545291
UPDATE: I think it could be hacked by the numbers with the most factors. Here is the file. But I couldn't do uphack. Anyone could help me. Link
Auto comment: topic has been updated by awoo (previous revision, new revision, compare).
Auto comment: topic has been updated by awoo (previous revision, new revision, compare).
Finally Published the Editorial .More than After 1 day.
A : 519C - A and B and Team Training