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1758A - SSeeeeiinngg DDoouubbllee
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stupid constructive problems
Stupid?? How?
we did inform you in the announcement, didn't we?
omg saarang comment
omg saarang comment
I think you should still try to vary the problems a bit. Making a round where more than half of the problems are constructive doesn't make any sense. Maybe you could as well make a math contest.
Since when did we start taking announcements seriously? you also hinted that there may be an interactive problem, but I can't find any.
Maybe next time keep your constructive problems for your mom.
do you know what atmost 1 means
just asking
skill issue
constructive algorithms and greedy are the part of problem-solving, They are not stupid.
wow thanks for the quick editorial
Very good round (even though I lost rating :cri:)
I am proud to First Solve B today, it's my first time having such great experience.
on D, I did not divide cases, instead I thought about two pointers. I set $$$L=\min$$$ and $$$R=\max$$$, and the total sum as
Unable to parse markup [type=CF_MATHJAX]
. And then, I advanced $$$R$$$ and $$$L$$$ until I could find an answer. For the exact method, please see my accepted submission — 182519051. I am yet not sure how this method really works, but it did. Can anyone provide a formal proof on why this works?I C how your solution for B matches the same solution on YouTube and more over your template and Language keep on changing with every other problem. Do you feel guilt? Shit anyway.
but I was literally first solve. I can't be copying anyone else if I'm the first one to solve LOL
UPD: proof
That me on that pic??!?!?!
Yep, looks like you're there, though I didn't really intend on targeting anyone specifically in the screenshot.
I just was too excited that I'm one of the first who solved B
Cool I was 5th apparently
Here's a simple solution for D. For example, if $$$n = 5$$$, we use $$$[2, 3, 4, 5/6/7/8/9, 10]$$$. We can add 1 to all numbers to change sum without changing the LHS. To change the value $$$\mod n$$$, we can choose the correct integer in the 4th location. Using this we can get all integers above some value. And the square of max — min is provably larger than the current sum. So it works.
Nice problemset!! got +ve delta :)..stuck on D though!
C was amazing. Took me 40 minutes but made that..
Can any one Point out the mistake i have done : As x was missing from there original position .I am trying to place next multiple (i.e. x2)at that place and repeating the same for next place.
::Done I have find the mistake.
You have to check for the factors of n and then iterate over factors to replace the xth element with the next factor of n..
Check my code and you will understand, Code
Video Solution for Problem C
Answer is impossible is
n
is not divisible byx
Start with the identity permutation
1,2,3,...,n
Now we know,
p[1] = x
,p[n] = 1
, sop[x] = n
. So, we getx,2,3,..,x-1,n,x+1,...,n-1,1
The only task left is to make this lexicographically smaller.Now elements from
2,3,...,x-1
are fixed, so to make this lexicographically smaller, which element can you swap?hey i am also doing the same(and getting WA) ...what did you find wrong in this logic? 182912947
You should see the example given in the editorial. You will get it. By my logic, there is no answer but there is an answer. But as per the editorial place n at x and then increase the size which also seems to be logical.
My solution for D: 182515472
Let's assume that the minimum element is $$$x$$$ and the maximum element is $$$y$$$. Then we have a lot of freedom to change the elements in the middle without changing the range. The smallest sum is when the array is $$$[x, x+1, x+2,\ldots, x+n-2, y]$$$ and the largest sum is when the array is $$$[x, y-n+2, \ldots, y-2, y-1, y]$$$. We can achieve any sum between these extremes using a greedy algorithm. Start with the array with the smallest sum, visualize the elements as points on a number line, and move elements to the right one by one, where you move it as far as possible without making the sum exceed the target.
So if we have values for $$$x$$$ and $$$y$$$ such that it is possible, we can construct one possible array with the above approach. Now, how do we choose values of $$$x$$$ and $$$y$$$ for each possible $$$n$$$?
Let's assume we know $$$x$$$. Then we can iterate $$$y=x+n-1, y=x+n, y=x+n+1,\ldots$$$ until one of them is valid. We just test validity by making sure the range squared $$$(y-x)^2$$$ is between the minimum possible sum $$$(n-1)x+y+(n-2)(n-1)/2$$$ and the maximum possible sum $$$(n-1)y+x-(n-2)(n-1)/2$$$.
I assumed that it will always work when $$$x=2n$$$ and I assumed that $$$y(n) \le y(n+1)$$$ so that I can use two pointers in $$$O(n)$$$ time instead of iterating every possible $$$y$$$ for every possible $$$x$$$, which I believe would be $$$O(n^2)$$$.
I have iterated over every possible $$$x$$$ and every possible $$$y$$$ here.
https://codeforces.net/contest/1758/submission/182516630
Auto comment: topic has been updated by manish.17 (previous revision, new revision, compare).
This is my first time i get standing in top 500. As a pupil, i think this contest is easier than the previous div 2 contests. Anyone think so ?
Probably because the problems were constructive, which comes easier for some people
E is a really nice problem
In problem B , for n=4, why answer can not be 1 1 3 2. ScarletS
The average of 1, 1, 3, 2 is 7/4
The XOR of 1, 1, 3, 2 is 1
1 != 7/4
XOR of 1,1,3,2**** = 1
I fixed it about 4 minutes before you replied...
Got it Bro, but in query clarification section you guys said that we have to take real number calculation, acc. to which 7/4==1, that's the only confusion I had. Btw, Thanks again for clarifying here.
7/4 is a real number :)
Oh shit:(, I just overthink, Btw Thanks once again.
My solution for D https://codeforces.net/contest/1758/submission/182529333
Let's say you want to make the sum of all the numbers as (2*n)^2 then on average all the numbers should be 4*n, now you want max — min as 2*n take max as 5*n and min as 3*n, now if you see all the remaining number still averages out to be 4*n, if n is even, distribute the number like 4*n-i,4*n+i and same for odd just 1 number would be 4*n
i did the same approach.
damn good (constructive)
My solution for C :
X,2,3..__....,n-1,1
( '__' denotes there is no element on the xth index)Four constructive tasks... If you can't come up with normal tasks, why are you doing a contest?
My solution for C
If p[1] != n and p[1] = k, p[k] = n then try to place n as further as possible If p[1] = n then no need
My approach for task D: Assume we construct our initial sequence as M, M+2, M+4, .., M+2*(N-1). Difference between endpoints = d = 2*(N-1). Now let's define the Deficit as: sum — d*d.
deficit = M*N + N*(N-1) - 4(N-1)^2
We can observe that deficit increases with increase in M, and it increases in multiples of N. So we can binary search for that point where deficit first becomes negative. At this point, absolute value of deficit is <= N. So we can cover the deficit by shifting the in-between elements by 1.Your name justifies you
The bound in the editorial for F is indeed quite loose. A simple way to improve it:
To remove something we must have added it first so operations are at most 2*(number of added intervals). Case 1 adds one interval, case 2 adds two intervals, however case 2 operations can be at most half of the operations (since they pair with a corresponding case 1 operation). Therefore the described solution will do $$$3n$$$ operations at most.
Can someone please explain why this solution 182516763 works for E?
Welcome to ConstructForces. I love it.
another solution for problem D
For even number n: same as official solution, the answer is [n-n/2, n-n/2+1, ... ,n-1, n+1, ... ,n+n/2-1, n, n/2+1].
For odd number n: construct y = n*4, answer is [y-n, y-((n-1)/2)-1, ... , y-2, y-1, y, y+1, y+2, ... , y+(n-1)/2+1, y+n]. notice the first and the last is special. for instance: 7: y = 28, answer is [21, 26, 27, 28, 29, 30, 35], the max — min = 14, sum = 196 = 14 * 14.
I really liked problem d Although it took me every single cell in my brain to solve it But it was worth the effort
Why is complexity O(nlogn) instead of O(n) in C?
Using sieve(if used) .. complexity is O(nloglogn) in avg cases.. in worst cases it will be O(nlogn)..Feel free to correct!!
You only need to factorize one number, which can be done in o(sqrt(n))
may be author solution use precomputation of smallest prime factor of all numbers...just like in my soln 182512680
There's an another quite interesting solution for problem B:
In this situation, $$$XOR = Average = n$$$.
Not true for n = 3: 1 4 4. Average is 3, XOR is 1.
Oh sorry, to be more clearly, that's solution for even numbers.
As for odd numbers, let $$$a_i=1$$$.
No it's my bad, that should have been obvious. Maybe I shouldn't reply to CF comments while sleep deprived :)
Can you explain how? my average is coming--> n+1 and XOR= 0 maybe im missing something
that's solution for even numbers.
How did you get the intuition for this?
Well, Maybe $$$(a-1)(a+1)=a^2-1$$$ inspired me.
For $$$D$$$, here is another solution.
If $$$n$$$ is odd, we can let $$$[a_1,a_2,\dots, a_n]=[3n,4n-{n-3\over2},\dots,4n-2,4n-1,4n,4n+1,4n+2,\dots,4n+{n-3\over2},5n]$$$
If $$$n$$$ is even, we can let $$$[a_1,a_2,\dots, a_n]=[3n,4n-{n-2\over2},\dots,4n-2,4n-1,4n+1,4n+2,\dots,4n+{n-2\over2},5n]$$$
$$$\displaystyle\sum_{i=1}^na_i=4n^2,\max-\min=5n-3n=2n$$$
182509063
wow thx an elegant and nice solution :D
Alternative Solution for D:
Let req = (right — left)^2
For a section of n elements spread over a range of length len (len = max — min) and beginning from 1, we can find the min and max possible values that can be obtained by shifting values in this range.
Eg: len = 5, n = 3.
min = [1, 2, 5] = 8, max = [1, 4, 5] = 10.
We run an infinite loop for satisfying the condition min <= req <= max.
It can be easily proved that if this condition is satisfied, we'll always be able to find an appropriate solution for req.
Now, if max < req, then we'll need to 'boost' (add an offset to all elements), as that is the only way of satisfying the equation.
My Solution
PS: The infinite loop is only for avoiding extra case work.
The equation should be satisfied in only a couple of iterations.
what's wrong with my solution for C 182586576 .. i am not able to figure out
Hey buddy, if you try this test case: 1 16 2 your code will produce this result: 2 4 3 16 5 6 7 8 9 10 11 12 13 14 15 1 which is not optimal as you still have to swap between 8 and 16 to get the minimal permutation. It is not enough to put some number m in place of x and put n in place of m, you may have to do the same process multiple times. In the test case above for example, you need to put 4 in place of 2, 8 in place of 4 and 16 in place of 8 to get the right answer: 2 4 3 8 5 6 7 16 9 10 11 12 13 14 15 1 I hope I was helpful :D
This contest was amazing! Thanks to everyone who contributed to its preparation :D
1758C — Almost All Multiples 182522546
Please can anyone help me to figure out why my solution is giving the wrong answer? Thank you in advance.
for question D, the sqrt(sum) question. My solution was like this. My solution for the even is the same but for the odd solution i did as like this: my sequence will be in the form of n/2+1,n+3,n+3,n+2,n+2,n+2,n+2,...,3*n/2+2, its sum is equal to n^2 + 2n + 1
proof: i did some maths adn made sure that 3*n/2+2>=n+3 for all n (>=2 stated in the question)
max-min=n+1
2*(n+3)+(n/2+1+3n/2+2)+(n-4)(n+2)=4n+9+n^2-2n-8=n^2+2n+1
someone pls tell me why am i wrong xd
1758C — Almost All Multiples — implementation(C++) and implementation(Python) are equal, i mean links are the same, can u correct it pls, thanks for blog btw!!
Fixed.
For problem E, I have doubts related to the sample input. in the question for the sample
it's mentioned that the following is the configuration. Can anyone tell me how this configuration is reached?
For the first sample, this is a possible configuration for the clocks:
Any help will be appreciated. Thanks.
Perhaps you are misunderstanding the problem. The problem is about counting the number of ways to replace each of the $$$-1$$$s with integers in the range $$$[0, h - 1]$$$ such that the configuration is solvable.
In D just write numbers from 1 to n ,then increase n by (n-1) ,then see how much more required to get (max-min)^2 ,let it be K so first add K/n in all numbers ,but there is till k%n left but that's not a prblm,just add it to the second last number and it won't create collision and remove distinction as at the beginning we freed upto n-1 spaces by increasing last number (n) by n-1 Xbir
Code of My Solution
Nice B question. Nicely explained, good approach.
Alternative approach to problem E:
Set up nxm bipartite graph, G. There is an edge from ith LHS vertex to jth RHS vertex of weight w iff there is a clock at (i, j) with value w. An edge also exists in the opposite direction with weight -w. Set up UFDS for G as well.
Perform dfs on G instead using the same logic of finding contradicting modulos. If so, just output 0.
Now iterate through all pairs in G, if ith LHS vertex isn't already in the same UFDS set as jth RHS vertex, there are exactly h possible clocks you can now insert at cell (i, j), then union these two sets.
Link: https://codeforces.net/contest/1758/submission/185844107
A quick solution for D, for n , no matter even or odd , consider the array: 3n+1,3n+1+2,3n+1+4,3n+1+6.....,3n+1+2(n-1), the sum of these elements are 4n^2, the sqrt of which is 2n, but the biggest — smallest element in the array is 3n+1+2(n-1)-3n-1 = 2(n-1), what can we do to modify it? that's simple , we add 1 on the biggest element which is 3n+1+2(n-1) and minus 1 on the smallest element 3n+1, now we get 3n+1+2(n-1)+1 — (3n+1-1) = 2n.
In The Problem C I have this solution can anyone explain why it fails ? "void solve() { ll n,k; cin>>n>>k; if(k!=n) { if(n%k!=0) { cout<<-1<<endl; } else { cout<<k<<" "; for(int i=1;i<n-1;i++) { if(i+1==k)cout<<n<<" "; else cout<<i+1<<" "; } cout<<1<<endl; } } else { cout<<k<<" "; for(int i=1;i<n-1;i++) { if(i+1==k)cout<<n<<" "; else cout<<i+1<<" "; } cout<<1<<endl; } }" Logic behind is that we know that K is to be placed first so the i+1 th place must be occupied by a number sivisible by k , so i just check if the number n is divisible by k then i will place n at K's original position .
Is my solution to C better than the editorial ?