ch_egor's blog

By ch_egor, 4 years ago, translation, In English

Thanks for the participation!

1539A - Contest Start was authored and prepared by grphil

1539B - Love Song was authored by jury and prepared by talant

1539C - Stable Groups was authored by Artyom123 and prepared by Artyom123 and shishyando

1539D - PriceFixed was authored by Helen Andreeva and prepared by Siberian

1539E - Game with Cards was authored and prepared by TeaTime

1539F - Strange Array was authored and prepared by Tikhon228

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4 years ago, # |
  Vote: I like it -11 Vote: I do not like it

A great competition with hacking :)

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4 years ago, # |
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Can someone explain one of the multiset solutions to E? Thanks!

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    4 years ago, # ^ |
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    Can you show any multiset solutions which passed ?

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    4 years ago, # ^ |
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    Consider dpL[i][j] (different from the one from the editorial) as equal to 1 if it's possible to take the first i cards, ith one in the left hand, and j being the last card we took in the right hand (j<i). And, dpR[j][i] as equal to 1 if it's possible to take the first i cards, last one in the right hand, and j being the last card we took in the left hand. then, instead of storing the whole array, let L[i] be a set (or multiset) of pairs of <k[j],j> such that dpL[i][j] is 1, (and the same for R[i]). Now, if we're at step i and know L[i] and R[i], let's try to compute L[i+1] and R[i+1]: Let's focus on computing L[i+1], for R[i+1] it's similar: if (i+1)th card can't go in the left hand, then L[i+1] will be empty, let's assume it can go there. Let's also assume that the (i+1)th right hand can take any card, we'll fix that later. Then, first of all, if the set R[i] is not empty, we should add the pair <k[i],i> to L[i+1], that's because we can go from having the cards from (j, i) to (i+1, i) by taking the i+1th card in the left hand. And, let's also add to L[i+1] all the pairs from L[i], because we can get those by going from (i, j) to (i+1, j). Now, I assumed that the (i+1)th right hand can take any card, while in reality it can only take those whose k is between ar[i+1] and br[i+1]. So, let's erase from L[i+1] the pairs that are not valid. Since it's a set, we can just erase the smallest card values and the highest card values from the set which are not in the interval. This might seem like it's too slow, but it's actually amortized, because at each step, we only add at most one new pair to the set ( the pair <k[i], i> ), and delete some of the pairs which aren't valid. I'm not sure if I explained this very well, I hope it's clear.

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      4 years ago, # ^ |
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      Ah, I see thanks a lot! It was very clear :)

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      3 years ago, # ^ |
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      Thanks for explanation. But I can't understand why I should use dp? Can you please give some idea on this ? Or just tell me the naive approach by which i can solve the problem? Like naive dp approach

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        3 years ago, # ^ |
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        A naive dp approach using the same dp I described above would be: dpL[i][j] (j<i) is true if, obviously, ith card can stay in the left hand (at step i), and jth card can stay in the right hand (at step i), and either:

        • j < (i-1), and dpL[i-1][j] is true

        • OR j == (i-1), and there exists such k < (i-1) so that dpR[k][i-1] is true

        And similarly for dpR. After calculating this, you can easily recreate the solution from right to left.

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      3 years ago, # ^ |
      Rev. 3   Vote: I like it +10 Vote: I do not like it

      How will the following be represented according to these dp states?

      We can pick all the cards upto the ith card in the left hand but none of them in the right hand (in other words, all the queries are answered on the left hand upto the ith card).

      This would imply that there is no j such that dpL[i][j] is 1. But still we can answer all the queries upto the ith card.

      Edit: I thought a lil bit about it and I think we can use 0 as a dummy card (which basically means, by default we'll have 0 as a card in right hand if we don't pick any card in it). And yess, AC. Great explanation OFZ.

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4 years ago, # |
  Vote: I like it +61 Vote: I do not like it

Nice problems, but the gap between problem ABCD and EF seems too large.

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    4 years ago, # ^ |
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    I think there is a mistake in the editorial of the Problem F.

    The editorial said if the $$$a_i$$$ is less than or equal to the median element then $$$ans = \left\lfloor\dfrac{cnt_R+cnt_M-cnt_L+1}{2} \right\rfloor$$$, but if I have an array that is $$$[1, 2, 3, 4, 4, 6]$$$, the ans of the number $$$4$$$ should be 1, and if you use the formula mentioned above, you may get a wrong answer 0.

    Could anyone tell me the correct formula?

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      4 years ago, # ^ |
        Vote: I like it +21 Vote: I do not like it

      The formula is correct, but it's for when the element come to the left of median. When element comes to right of median, other formula should be used which should give you 1. That's why we should take maximum from left & right.

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        4 years ago, # ^ |
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        Thank you very much. You're right and I have solved this problem by using two distinct formulas.

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      4 years ago, # ^ |
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      sorry

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        4 years ago, # ^ |
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        I'm sorry but the median number is 4 according to the Problem F.

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4 years ago, # |
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Good problems!(But E,F is too difficult!) And I get to expert!

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4 years ago, # |
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Still don't understand editorial of D, can anybody explain the two pointer technique?

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    4 years ago, # ^ |
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    First we sort the array according to increasing order of $$$b_i$$$. Now, we maintain 2 pointers one at the start of the array(say $$$i$$$) and other one at the end(say $$$j$$$). Also, let's maintain two variables $$$cur$$$(stores number of products already taken), $$$ans$$$(stores the required answer).

    Now, we run a loop until $$$i\leq j$$$.

    If $$$cur\geq b_i$$$, there is no point to leave this product, so we buy all $$$a_i$$$ products with 50% discount and update our $$$cur$$$ and $$$ans$$$.

    If $$$cur\lt b_i$$$, then we start from second pointer i.e. $$$j$$$ and keep taking $$$min(b_i-cur,a_j)$$$ products for 2 rubles, if $$$cur\lt b_j$$$, otherwise for 1 ruble. We stop once we have $$$cur\geq b_i$$$. Update $$$cur,ans,a_j$$$ accordingly. If $$$a_j=0$$$, decrement $$$j$$$.

    My submission

    In this submission, I ran a loop until $$$i\lt j$$$ and checked $$$i=j$$$ condition separately but that isn't necessary.

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      4 years ago, # ^ |
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      but when cur < bi I wonder if I can choose to continue buying (i-1)th product for 1 ruble or buying j-th product for 2 rubles. Will the 2nd option be more optimal than the 1st option?

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        4 years ago, # ^ |
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        Yes, second case will be optimal. Look at it this way, you have to buy as many products for 50% discount as possible. Now we know $$$i^{th}$$$ product has smaller $$$b_i$$$, so the condition for discount of this product will be fulfilled by taking lesser number of products for 2 rubles. Also it may happen that after taking $$$i^{th}$$$ product for 50% discount, products with higher $$$b_i$$$ can be taken for 50% discount without additional cost of 2 rubles. So, 2nd case will be optimal.

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4 years ago, # |
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4 years ago, # |
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I submitted 120147862 for Problem-C. It gave a wrong result on test 62 in GNU C++17. When I submitted the same code in C++11, it was accepted (120149347).

It would be helpful if anyone tells me what went wrong in my code.

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    4 years ago, # ^ |
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    Hey there, It is because of precision error differences in C++11 and C++17, So it is always advised to use long double instead of double. You will get AC in both versions with long double.

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    4 years ago, # ^ |
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    In these cases use this (val + d-1 )/ d instead of some ceil on double (Try to avoid doubles if you can do the same with int (precision issue)).
    In your case foo[i] = (jar[i] — jar[i-1] + x-1)/x will be good to go.

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4 years ago, # |
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The difficulty range is very large,

For example, D through E

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4 years ago, # |
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In problem E, i thing that it's hard to come up with such dp state. Does anyone have a more natural idea for this problem ?

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    4 years ago, # ^ |
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    A more natural idea is to calculate limits for both hands from the end.
    Last move has no limits. The range for both hands of last move is from 0 to m inclusive.
    For the previous move check cases. Initially limits impossible m < k < 0.
    If you can take the card into left hand, then check, could you keep your right hand for the next move? If left card may be kept, limits for the right hand are the current limits for right hand. Otherwise right hand must be kept for the next move, so intersect current limits for right hand with limits for next move.
    The same for the right hand.
    Finally we check limits for initial situation, is pair (0,0) allowed.

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      4 years ago, # ^ |
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      Isn't that exponential complexity? (two choices in every move)

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4 years ago, # |
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120173484 I am getting runtime error on test 23 in problem C. Unable to understand if it is due to seg fault or overflows. Can someone pls explain

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    4 years ago, # ^ |
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    Just return when the valid array size is 0. You cant use binary search when the size of the valid vector is 0. Reason: v.begin()=points to first element, v.end() points to next element of last ele.

    120176292

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4 years ago, # |
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Can anyone check my submission for D. Its giving TLE at tc 11 and it seems that its because of initial sorting itself (and not even entering while loop).

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    4 years ago, # ^ |
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    I tried to submit your solution with just by changing the compare function in sort and it worked. Here is the submission have a look just compare it with your solution to see the changes I made.The problem was in how you are defining the compare function in sort. What I have understood is <= or >= is slower than < or > which is causing the problem. For more details please go through this blog

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      4 years ago, # ^ |
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      Thanks it passed. Wish i've known this before

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        4 years ago, # ^ |
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        I also learnt it the hard way. After getting TLE on TC 11 twice during the contest and then submitting the same code in 8 different ways after the contest was able to figure it out.

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      19 months ago, # ^ |
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      Thanks, I wont be learning this the hard way. :)

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4 years ago, # |
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I found D to be a lot easier to think about using binary search (which solves in $$$O(n\log(10^{14}))$$$. Similar to the editorial, sort with respect to $$$b_i$$$. Now, let $$$x$$$ be the number of items with price $$$1$$$ and $$$y$$$ be the number of items with price $$$2$$$. Then, our answer is equal to $$$x + 2 \cdot y = y + \sum_{i = 1} ^ {n} a_i$$$, so it suffices to minimize $$$y$$$.

Let's binary search on this. Suppose we set $$$y = k$$$. How do we know if this is enough? First we make two simple observations:

  • We buy all $$$k$$$ items at the very beginning.

  • We buy all $$$k$$$ items from a suffix of the sorted array.

Why does this work? Well, if you are going to buy $$$k$$$ items of price $$$2$$$, you should do it earlier than later, because then we might have more $$$b_i$$$ opened up that gives us items of price $$$1$$$. Similarly, we should be buying our items from a suffix because that way we can maximize the number of items of price $$$1$$$ we get (and, subsequently, minimize the number of items of price $$$2$$$).

From here it's simple to solve with binary search. To test $$$y = k$$$, start a counter for the number of items bought and an index at $$$0$$$. While the counter is greater than $$$b_{\text{index}}$$$, add $$$a_{\text{index}}$$$ to the counter (since we're getting all of those for price $$$1$$$) and increment the counter. If $$$k$$$ is enough, then the counter should be $$$\geq$$$ the number of items we have in total.

This explanation may seem a bit complicated, but the ideas involved are simple to arrive at and the implementation is very clean: my submission here.

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    4 years ago, # ^ |
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    This idea is nice, but it's still not too different from the solution, because we still have to make the observation: buying items with higher b_i is better. I can say, your idea is not fundamentally different from the solution's idea. Maybe because this is not a hard problem so we can't see the diversity of the solutions like some others.

    But it sure is a great idea, the thoughts "I should minimize the number of bought items with price 2", "I can binary search the answer on this", ... and more, as you explained, are completely natural and can be thought of. Thank you for your contribution!

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    4 years ago, # ^ |
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    Thank you, brilliant explanation

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    3 years ago, # ^ |
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    Thanks. In your solution, we finally found a proper position where the things before it were 1 and later than it were 2. So, why not check every possible position and keep some useful information? See my submission, which is theoretically O(N) if we use radix sort instead of qsort.

    Sorry for my bad English : )

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    3 years ago, # ^ |
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    I'm sorry for replying to your comment that is 6 months old, but reading this cleared all my doubts and troubles with this problem, I struggled with finding the right train of thought to solve this problem and the way you explained it removed all of my confusion regarding this.

    The two pointer technique althought gives AC, didn't make the underlying idea behind the solution, i.e x+2y will be our minimum cost which can be re-written as ∑ai + y obvious to me, which your approach clearly does. Thanks a lot! your comment not only helped me in this problem but will help me in future problems as well as it gave light to the right mindset while solving the problem :)

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    8 months ago, # ^ |
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    ty

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4 years ago, # |
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I have a different way of implementing problem D that is more concise. Considering buying items backwards, we want to the last item we buy is the item with the highest discount requirement(which can be achieved). Which means all we need to do is suppose we have already bought all the items and the number of items is $$$num$$$. Sorting $$$b_i$$$ in non-decreasing order, skip the items that are impossible to get a discount on and take $$$num_i = \min(num-b_i,a_i)$$$ as the number of $$$item_i$$$ which we can buy with a discount. Remember to substract $$$num_i$$$ from $$$num$$$. After iterating $$$i$$$ through all the items, the sum of $$$num_i$$$ is the total number of item that we can get a discount on.

The code goes like this:https://paste.ubuntu.com/p/8mwW8n2yfQ/

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    3 years ago, # ^ |
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    why does this work? dont 1's also count towards the total items bought. from what i can see from your solution it is just comparing if the number of items left is greater than the b of the current last item, but if there is an item that has a lot more a than it has b, wouldnt it also be useful in increasing the total number bought and thus would have to be used in the total number of items bought?

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4 years ago, # |
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Test:

5
3 10
2 12
1 11
3 10
1 8

Submission: 120129309

Output : 20 Correct Output: 19

This submission is getting accepted but however the above test case shows wrong output. Correct Output should be 19, instead of 20.

talant

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    4 years ago, # ^ |
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    Stop tagging me, this task isn't even mine

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4 years ago, # |
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Problem D

Proof that buying more items of some product than needed doesn't make the answer better. Let's suppose we have already achieved an product (say product A) which we can buy at discount. Now consider we have to buy next product (say product B).

N be the number of product B we have to buy, and d be the total purchases required before discount and c be the amount of items we have already purchased. Then,

Case I (buy more of product A and then B)

Total cost for buying product B = (d-c)*1 + (N*1) = d-c+N

Case II (only buying product B)

Total cost for buying product B = 2 * (d-c) + ( N-( d-c ) ) = d-c+N

So both the cases cost the same. But this is a special scenario. If we had different percentage of discount, then the above cases wouldn't be equal.

If we say m as discount percentage and x as normal price then,

Case I

mx(d-c) + Nmx

Case II

x(d-c) + (N-d+c)mx

Equating both cases, we get m = 0.5 or 50%..

So only when the discount percentage is 50%, buying more of a discounted product or buying only the required quantity of each products doesn't matter. Hence also in this case, doesn't matter.

Sorry for writing just the obvious algebra but wanted to share anyway :)

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4 years ago, # |
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in E

  • Card in query i fits constraints on value written on card in left hand in queries with indexes [i,j).

i think it's [i,j] isn't it ? Because we have card in i for query j too

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    4 years ago, # ^ |
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    It's [i, j) because card j was already taken in right hand.

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    4 years ago, # ^ |
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    Oh, you are correct, I mistook it with something else. Thanks for noticing!

    Edit: editorial was fixed.

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4 years ago, # |
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hai.. where my code gone wrong..? please help me..
for problem C
thx code

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    4 years ago, # ^ |
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    You should check line 37.You change d continuously without initializing.The d on the right side of each formula in line 37 should be the d in line 32 instead of the last calculated d.

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4 years ago, # |
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Explanation to E sounds like it would be possible to explain it in an understandable way.

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4 years ago, # |
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If there is an item which costs 1, then we will not make the answer worse by buying this item.

Why is that? For example, consider a situation where we've already bought all items, except for one, and it costs 2, and to make it cost 1 we need to buy 2 more items. In that case it would be cheaper to buy one left item and spend 2 instead of buing two more random items at cost 1 and finally buing one last item, spending 3 in total.

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    4 years ago, # ^ |
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    In your example you are explicitly making the cost of that item by buying more products of other items. But the statement means that if by buying other items and within limits i.e. less that $$$a_i$$$, then you should buy the items of cost 1.

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4 years ago, # |
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Although E and F was more difficult than the rest, the contest was great. First time reach to Expert!!

Sr about my bad Eng :p

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4 years ago, # |
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Hey, can anyone help me with problem C. Don't know why is it giving WA on test 10. Below is my submission — 120223010. I have used the same approach, except that I have taken The number of elements required to fill the gap as floor((d-1)/x).

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    4 years ago, # ^ |
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    Change vector(int)split to vector(llint) split and it gets accepted

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4 years ago, # |
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Can anyone tell me where am I doing wrong? I am getting wrong answer on test case 10. Problem C. Submission : 120227942

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    4 years ago, # ^ |
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    I think the problem is that you have int[] a instead of ll[] a. Each element can be up to 1e18.

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Can someone please tell me what my mistake is in problem D? My submission Thanks in advance!!

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4 years ago, # |
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Can someone help me with Problem D? My submission is

https://codeforces.net/contest/1539/submission/120232784

Thanks in advance!

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    4 years ago, # ^ |
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    Your solution has not correct comparison in the case of whole buying goods without discount:
    else if (total_bought + products[j].F < products[i].S)
    Correct comparison is:
    else if (total_bought + products[j].F <= products[i].S)

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In problem C i ran the code in PyPy3 the code got TLE in test case 18 but when I ran the same code in Python3 the code got accepted Can anyone clarify why did that happen?

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4 years ago, # |
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In problem C Java solution with Long[] array gets accepted, but long[] array solution gets TLE. (16th line in both solutions)

ACC: https://codeforces.net/contest/1539/submission/120284760
TLE: https://codeforces.net/contest/1539/submission/120284797

Could someone explain me why reference type works faster than primitive in this example?

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4 years ago, # |
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I had a hard time understanding the tutorial for problem E. This is my attempt at making it easier to understand.

Easier problem: jump game

Consider this easier problem: you have an array $$$x$$$ where $$$x[i]$$$ means what the farthest is that you can jump from position $$$i$$$. Is it possible to reach the last element in the array if you start from position 0?

We can solve it with a DP where $$$dp[i]$$$ = can we reach the end if we start from position i? The solution to the problem is then equal to $$$dp[0]$$$. The transitions are like this: $$$dp[i]$$$ = $$$dp[i + 1]$$$ $$$||$$$ $$$dp[i + 2]$$$ $$$||$$$ ... $$$||$$$ $$$dp[i + x[i]]$$$. There are $$$N$$$ states and the transitions are $$$O(N)$$$ so this runs in $$$O(N^2)$$$.

We can make every transition $$$O(1)$$$ with a greedy insight. Instead of checking $$$dp[i + 1]$$$, ..., $$$dp[i + x[i]]$$$ we only need to check $$$dp[j]$$$ where $$$j$$$ is the leftmost position from which we can reach the end. The reason this works is that the leftmost position from which we can reach the end has the best probability of being within our jumping range. We can keep track of this leftmost position as we compute each state in a bottom up fashion.

int leftmost_possible = N - 1;
for (int i = N - 2; i >= 0; --i) {
  if (leftmost_possible <= i + x[i]) {
    dp[i] = true;
    leftmost_possible = i;
  }
}

Back to problem E

We can again solve this with an $$$O(N^2)$$$ DP where $$$dp(x, y)$$$ = can we finish if card with index $$$x$$$ is in the left hand, and card with index $$$y$$$ is in the right hand (and we have just answered query $$$max(x, y)$$$).

We can notice that we can reduce the number of states to $$$N$$$. Because if we are at $$$dp(x, y)$$$ (WLOG $$$x > y$$$) then

  • either we will keep replacing the card in the left hand until we reach the end
  • or at some point we have to take something in the right hand and we transition to state $$$dp(k, k + 1)$$$

So if we are at state (x, y) then in the next step either we are done, or we will transition to $$$dp(k, k + 1)$$$. Therefore (since we start at state $$$dp(0, 1)$$$) we will only visit states of the type $$$dp(k, k + 1)$$$ (and $$$dp(k - 1, k)$$$), and there are only $$$O(N)$$$ of those.

The transition is now $$$O(N)$$$ because we have to consider every $$$k$$$ such that $$$dp(k, k + 1)$$$ works. But with the same greedy insight as in the jump game problem we can reduce that to $$$O(1)$$$. Again we can store "the leftmost k that works" as we compute the states and therefore we can find the transition in $$$O(1)$$$.

Now of course in this problem another hard part is to compute the "maximum jump length" at every position. In the jump game problem this was given in the input, whereas here we have to compute it. For sure you can do it in logarithmic time with a segment tree (I saw it in Colin Galen's video). But apparently you can also do it in $$$O(1)$$$ since the solution runs in O(N) according to the tutorial. I didn't think about optimizing that part yet.

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    3 years ago, # ^ |
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    me too confused about how to compute maximum jump length in O(1)

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3 years ago, # |
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I have used 2 the same method as used by most of the other coders but my code is giving tle. Can please someone look and tell me why it is? 120407076

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    3 years ago, # ^ |
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    Try to use Long[] array instead of long[]. Also you may read my comment above.

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3 years ago, # |
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How to achieve time to be O(n) in question E? I'm very confused.

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3 years ago, # |
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Can someone please help me with problem A?? Can't understand the solution give.

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    3 years ago, # ^ |
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    1. First consider the case where there are infinite participants. Then each participant would be disturbed by $$$t/x$$$ participants following him.

    2. Then consider the case that $$$n$$$ is finite but large enough, then the first participant would be disturbed by $$$t/x$$$, the same for participant 2, ..., until $$$k$$$.

    For the participants beyond k, the number of participants that would disturb them are decreased by 1 each time, i.e., $$$t/x - 1$$$, $$$t/x - 2$$$, until 0 for the last participant.

    There are $$$t/x$$$ numbers from $$$t/x - 1$$$ until 0, thus we know $$$k = n - t/x$$$.

    So the answer would be $$$(n-t/x) * (t/x) + (t/x-1)*(t/x)/2$$$.

    3. The $$$min$$$ and $$$max$$$ in the answer is to solve the case where n is not large enough, i.e., when $$$n < t/x$$$.

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3 years ago, # |
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I'm glad I didn't participate in this one officially. Problem C was easy but I kept getting a TLE for stupid language-specific reasons:

  • My Python solution got TLE on test 18 with PyPy3, but the same code passed with Python 3.

  • My Java solution got TLE on test 61, but passed if I changed long[] to Long[]. (This is kind of my fault for not knowing Java uses a worst-case O(n^2) sort for primitive arrays.)

  • My C++ solution passed with no special optimization.

In my opinion that's an indication that the time limit is overly strict, especially for an ABC problem.

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3 years ago, # |
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122552751 why my solution A is not correct ? ans1 is Editorial solution ans2 is my solution

I checked my ans2 in many times. but ans1 equals ans2..
~~~~~ import random k = int(input()) for _ in range(k): n = random.randint(1,2*1000000000) x = random.randint(1,2*1000000000) t = random.randint(1,2*1000000000) tmp = t//x ans1 = max(0,n-tmp)*tmp + min(n-1,tmp-1)*min(n,tmp)//2 ans2 = tmp*n — tmp*tmp + tmp*n — ((2*n-tmp+1)*tmp)//2 if ans1 != ans2: print(ans1,ans2) ~~~~~