Codeforces round #435 editorial

Revision en37, by mohammedehab2002, 2017-10-28 02:52:57

862A - Mahmoud and Ehab and the MEX

One can see that in the final set all the elements less than x should exist, x shouldn't exist and any element greater than x doesn't matter, so we will count the number of elements less than x that don't exist in the initial set and add this to the answer, If x exists we'll add 1 to the answer because x should be removed .

Time complexity : O(n + x) .

Solution link (me) : https://pastebin.com/ALfcu8Ab .

Solution link (mahmoudbadawy) : https://pastebin.com/yXLkmA5F .

862B - Mahmoud and Ehab and the bipartiteness

The tree itself is bipartite so we can run a dfs to partition the tree into the 2 sets (called bicoloring), We can't add an edge between any 2 nodes in the same set and we can add an edge between every 2 nodes in different sets, so let the number of nodes in the left set be l and the number of nodes in the right set be r, The maximum number of edges that can exist is l * r, but n - 1 edges already exist so the maximum number of edges to be added is l * r - (n - 1).

Time complexity : O(n) .

Solution link (me) : https://pastebin.com/w3bF7gKS .

Solution link (mahmoudbadawy) : https://pastebin.com/PMpte7nC .

862C - Mahmoud and Ehab and the xor

n = 2, x = 0 is the only case with answer "NO" .

Let pw = 217 .

First print 1, 2, ..., n - 3 (The first n - 3 positive integers), Let their bitwise-xor sum be y, If x = y You can add pw, pw * 2 and , Otherwise you can add 0, pw and , We handled the case x = y in a different way because if we add 0, pw and in this case, Then it's like adding 0, pw and pw, pw appears twice so we'll get wrong answer.

Handle n = 1 (print x) and n = 2 (print 0 and x) .

Solution link (mahmoudbadawy) : https://pastebin.com/w67KUY5u .

862D - Mahmoud and Ehab and the binary string

In the editorial we suppose that the answer of some query is the number of correct guessed positions which is equal to n minus hamming distance, The solutions in this editorial consider the answer of a query as n minus real answer, For convenience.

Common things : Let zero(l, r) be a function that returns the number of zeros in the interval [l;r] minus the number of ones in it, We can find it in one query after a preprocessing query, The preprocessing query is 1111..., Let its answer be stored in all, If we made a query with a string full of ones except for the interval [l;r] which will be full of zeros, If this query's answer is cur, zero(l, r) = cur - all, That's because all is the number of ones in the interval [l;r] plus some trash and cur is the number of zeros in the interval plus the same trash .

First solution by mahmoudbadawy

Let's have a searching interval, initially this interval is [1;n] (The whole string), Let's repeat this until we reach our goal, Let mid = (l + r) / 2 Let's query to get zero(l, mid), If it's equal to r - l + 1, This interval is full of zeros so we can print any index in it as the index with value 0 and continue searching for an index with the value 1 in the interval [mid + 1;r], But if its value is equal to l - r - 1, This interval is full of ones so we can print any index in it as the index with value 1 and continue searching for a 0 in the interval [mid + 1;r], Otherwise the interval contains both values so we can continue searching for both in the interval [l;mid], Every time the searching interval length must be divided by 2 in any case so we perform O(log(n)) queries .

Second solution by me

Let's send 1111... and let the answer be ans1, Let's send 0111... and let the answer be ans0, We now know the value in the first index (1 if ans1 > ans0, 0 otherwise), We can binary search for the first index where the non-found value exists, which is to binary search on the first value x where zero(2, x) * sign(non - found bit value) ≠ x - 1 where sign(y) is 1 if y = 0,  - 1 otherwise .

Solution link (me) : https://pastebin.com/Bc6q7TKv .

Solution link (mahmoudbadawy) : https://pastebin.com/RMyLDMxw .

862E - Mahmoud and Ehab and the function

Let's write f(j) in another way:-

Now we have 2 sums, The first one is constant (doesn't depend on j), For the second sum we can calculate all its possible values using sliding window technique, Now we want a data-structure that takes the value of the first sum and chooses the best second sum from all the choices .

observation: We don't have to try all the possible values of f(j) to minimize the expression, If the first sum is c, We can try only the least value greater than  - c and the greatest value less than  - c ( - c not c because we are minimizing c + second not c - second) because the absolute value means the distance between the two values on the number line, Any other value will be further than at least one of the chosen values, To do this we can keep all the values of f(j) sorted and try the elements numbered lower_bound(-c) and lower_bound(-c)-1 and choose the better (In short we're trying the values close to  - c only).

Now we have a data-structure that can get us the minimum value of the expression once given the value of the first sum in O(log(n)), Now we want to keep track of the value of the first sum .

Let the initial value be c, In each update, If the length of the updated interval is even, The sum won't change because x will be added as many times as it's subtracted, Otherwise x will be added to c or subtracted from c depending of the parity of l (the left-bound of the interval) .

Time complexity : O(n + (m + q)log(m)) .

Solution link (me) : https://pastebin.com/u828DjcS .

Solution link (mahmoudbadawy) : https://pastebin.com/dA3K8nfK .

862F - Mahmoud and Ehab and the final stage

First, Let's get rid of the LCP part .

observation: , That could make us transform the LCP part into a minimization part by making an array lcp where lcpi = LCP(si, si + 1), You could calculate it naively, And when an update happens at index a, You should update lcpa (If exists) and lcpa - 1 (If exists) naively .

Now the problem reduces to finding a ≤ l ≤ r ≤ b that maximizes the value:-

, If we have a histogram where the ith column has height lcpi, The the size of the largest rectangle that fits in the columns from l to r - 1 is , That's close to our formula not the same but it's not a problem (You'll see how to fix it later), so to get rid of finding the l and r part, We can make that histogram and the answer for a query will be the largest rectangle in the subhistogram that contains the columns from a to b - 1, One of the ways to solve it is to try some heights h and see the maximum width we can achieve if h was the height, call it w, and maximize with h * w, To solve the slight difference in formulas problem we'll just maximize with h * (w + 1)!!

Let BU be a value the we'll choose later, We have 2 cases for our largest rectangle's height h, It could be either h ≤ BU or h > BU, We will solve both problems separately.

For h ≤ BU we can maintain BU segment trees, Segment tree number i has 1 at index x if lcpx ≥ i and 0 otherwise, When we query, It should get us the longest subsegment of ones in the query range, Let's see what we need for our merging operation, If we want the answer for the longest subsegment of ones in a range [l;r], Let mid = (l + r) / 2, Then the answer is the maximum between the answer of [l;mid], The answer of [mid + 1;r], And the maximum suffix of ones in the range [l;mid] added to the maximum prefix of ones in the range [mid + 1;r] . So we need to keep all these information in our node and also the length of the interval, As it's a well-known problem I won't get into more detail. Back to our problem, We can loop over all h ≤ BU, Let the answer for the query on range [a;b - 1] in segment tree number h be w, The maximum width of a rectangle of height h in this range is w and we'll maximize our answer with h * (w + 1) .

For h > BU, Let's call a column of height greater than BU big, The heights we'll try are the heights of the big columns in the range, We don't have to try all the heights greater the BU, There are at most big columns (Where tot is the total length of strings in input), Let's keep them in a set, When an update happens, You should add the column to the set or remove it depending on its new height, The set's size can't exceed now, Let's see how to answer a query, Let's loop over the big columns in range [a;b - 1] only, If 2 of them aren't consecutive then the column after the first can't be big and the column before the second either, That's because if it were big, It would be in our set, So we can use this observation by making a new histogram with the big columns in the range only, And put a column with height 0 between any non-consecutive two, And get the largest rectangle in this histogram by the stack way for example in , The stack way will get us the maximum width w we can achieve for a rectangle containing column number i, We'll maximize with lcpi * (w + 1).

Also the answer for our main formula can be an interval of length one, All what I mentioned doesn't cover this, You should maintain another segment tree that gets the maximum length of a string in a range for this .

Maximize all what we got, You have the answer, Now it's time to choose BU, It's optimal in time to choose BU near (Reason in tfg's comment below) .

Optimization: The longest subsegment of ones problem is solved by BU segment trees and each one has 4 integers in each node, You can make them 2 integers (max prefix and suffix of ones) and make another only one segment tree that has the rest of the integers, That would divide the memory by 2 .

Time complexity :

Thanks to gritukan for making it harder and more interesting .

Solution link (gritukan) : https://pastebin.com/vQ4RJqh0 .

Solution link (mahmoudbadawy) : https://pastebin.com/t3Vetzwf .

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en37 English mohammedehab2002 2017-10-28 02:52:57 0 (published)
en36 English mohammedehab2002 2017-10-28 02:52:04 2 Tiny change: 'r be stores in $all$,' -> 'r be stored in $all$,' (saved to drafts)
en35 English mohammedehab2002 2017-09-21 14:27:38 0 (published)
en34 English mohammedehab2002 2017-09-21 14:26:53 2 Tiny change: 'str_i,str_i+1)$, That c' -> 'str_i,str_{i+1})$, That c' (saved to drafts)
en33 English mohammedehab2002 2017-09-20 22:58:24 0 (published)
en32 English mohammedehab2002 2017-09-20 22:57:47 2 Tiny change: 'ty : $O(n+m+qlog(m))$ .' -> 'ty : $O(n+(m+q)log(m))$ .' (saved to drafts)
en31 English mohammedehab2002 2017-09-19 22:48:59 0 (published)
en30 English mohammedehab2002 2017-09-19 22:47:46 60
en29 English mohammedehab2002 2017-09-19 22:45:52 244 (saved to drafts)
en28 English mohammedehab2002 2017-09-19 20:26:52 0 (published)
en27 English mohammedehab2002 2017-09-19 20:26:04 50 Tiny change: 'n[problem:F]\n\nFirs' -> 'n[problem:862F]\n\nFirs'
en26 English mohammedehab2002 2017-09-19 20:23:58 426
en25 English mohammedehab2002 2017-09-19 13:18:36 4 Tiny change: 'd is $l*r-n+1$.\n\nTime' -> 'd is $l*r-(n-1)$.\n\nTime'
en24 English mohammedehab2002 2017-09-19 12:34:58 3 Tiny change: 'stogram the contains ' -> 'stogram that contains '
en23 English mohammedehab2002 2017-09-19 12:22:24 730
en22 English mohammedehab2002 2017-09-18 21:09:10 52
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en12 English mohammedehab2002 2017-09-18 15:19:11 1535
en11 English mohammedehab2002 2017-09-18 15:11:10 12
en10 English mohammedehab2002 2017-09-18 15:08:16 14
en9 English mohammedehab2002 2017-09-18 15:01:03 4080
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en5 English mohammedehab2002 2017-09-17 21:28:24 11
en4 English mohammedehab2002 2017-09-17 21:27:42 6 Tiny change: '-b_{i+j})|=|\sum\lim' -> '-b_{i+j})|$\n\n$=|\sum\lim'
en3 English mohammedehab2002 2017-09-17 21:26:23 1 Tiny change: '}*b_{i+j}|' -> '}*b_{i+j}|$'
en2 English mohammedehab2002 2017-09-17 21:25:24 438
en1 English mohammedehab2002 2017-09-17 20:57:21 5044 Initial revision (saved to drafts)