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CodeChef’s June CookOff, sponsored by ShareChat is almost here. Prepare to face the problem set that we have been busy brewing. This is your opportunity to showcase your programming skills amidst the best programmers in the world and better your ratings.
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There’s no time to waste, so start flexing your programming muscle. I hope you will join your fellow programmers and enjoy the contest problems. Joining me on the problem setting panel are:
Setters: kingofnumbers (Hasan Jaddouh), Erfan.aa (Erfan Alimohammadi), solaimanope (Mohammad Solaiman)
Tester and Editorialist: teja349 (Teja Vardhan Reddy)
Statement Verifier: Xellos (Jakub Safin)
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Vietnamese Translator: Team VNOI
Russian Translator: Mediocrity (Fedor Korobeinikov)
Bengali Translator: solaimanope (Mohammad Solaiman)
Hindi Translator: Akash Shrivastava
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Start Date & Time: 23rd June 2019 (2130 hrs) to 24th June 2019 (0000 hrs). (Indian Standard Time — +5:30 GMT) — Check your timezone
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Hope to see you participating!!
Happy Programming!!
Thanks for the contest!
My thoughts on Div 2: I felt the problem quality was generally strong, but the difficulty distribution could have been a bit better. In particular, it seemed like there were three easy problems, one medium-easy problem, and one particularly hard problem. Although the hard problem was particularly nice, it was a fair bit more difficult than most problems on the late end of Codechef Division 2 rounds.
Hi everyone. So, for question SUBSETS, my approach was as follows:
UPD: (Adding more about how I was/am calculating bad subsets)
Example:
$$$N=4$$$, $$$A$$$$$$=$$${$$$1,4,8,20$$$}
Initialize $$$cnt=N-2=2$$$
So, first I see that $$$(1,4)$$$ has no problem, then $$$(1,8)$$$ is a problem, so I subtract $$$2^{cnt}$$$ ( number of subsets with $$$1$$$ AND $$$8$$$, and decrease $$$cnt$$$ (now $$$cnt=1$$$), then $$$(1,20)$$$ no issue.
Again $$$cnt=N-2=2$$$. Now consider $$$(4,8)$$$, since I have considered all values to left of $$$4$$$, it means if some value to left of $$$4$$$ has problem with $$$4$$$ or $$$8$$$ then I have already counted its subsets, and I shouldn't count again. So I check to left of $$$4$$$, how many values have problem with either $$$4$$$ or $$$8$$$, let's denote it as $$$done$$$. Then $$$cnt=N-2-done$$$, and $$$(4,8)$$$ is problem, so subtract $$$2^{cnt}$$$ and decrease $$$cnt$$$ for $$$(4,20)$$$. And so on.
So, in all I do this, $$$ans=2^N=16$$$.
So, final change is $$$(-9)$$$. $$$ans = 7$$$.
But, I had a lot of trouble calculating what to subtract. Can someone help me with this?
My code : here
My solution was:
First we can factorise numbers and create a graph where there is edge between two nodes i and j if their pair is good. Now, we can see that answer is number of cliques in this graph. So, we can use meet in the middle approach. We divide all vertices in two sets and in each set calculate for each submask for vertices if thery are a clique or not. Now we take sum over subsets of one set. And then iterate over submasks of other set. We can calculate for this submask which mask of nodes in other set which are adjacent to all nodes in this submask. So, we add the corresponding sos value to answer. I couldn't fix bugs in my solution and my pc crashed midcontest:( Finally ac in practice code
Yeah I also thought about graphs at first. But I don't like graphs and also don't know a lot of tricks and am not comfortable with graphs so I didn't do it that way.
But, yeah, I thought of the same thing, we need to find number of Complete Graphs ( I assume that is same as clique ) as subgraphs in the graph created by joining edge between indices that form good pair.
But again, I feel (intuition) like there is simpler solution instead of doing graphs, meet in the middle and what not.
I did this but i couldn't get the part with sum over subsets faster than $$$O(2^\frac{n}{2} * n^2)$$$, so it was TL. Can it be done faster?
I represented graph's adjacency matrix in form of bitmasks and got $$$O(2^{n/2}*n)$$$.
I mean I do that too to match first half against the second. But how does it help in precalculating the number of submasks-cliques?
Let mask be mask of some subgraph you have already selected and now you want to see if some i vertex can be inserted in it. Then, if( (adj[i] and mask)==mask) then you can directly add it. So, you just need to iterate over all masks and then run a loop for which new vertex to add which is $$$O(n*2^{n/2})$$$
So, it seems they went bonkers this time. Editorial is already up.
SOS dp
ah
Surely they didn't intend to crash your PC. But maybe they did xD?
Can anyone explain the solution of Secret Recipe
We essentially have two cases.
The chef runs directly away from a single enemy but eventually gets caught without assistance from any other enemies. Obviously, this enemy must be faster than the chef.
Two enemies run towards the chef from different directions. The chef runs to the point where the two enemies meet and gets caught when the enemies meet at that point. (If the chef can't make it to that midpoint before getting caught by one of the enemies, this is equivalent to case #1.)
Computing the minimum time it would take for the chef to be caught in any of the Case #1 scenarios can easily be done in O(N) with some basic math. Case #2 is a bit more complicated because we have O(N^2) pairs of enemies that could help catch the chef. The problem we have now is finding the appropriate pair to catch the chef fastest.
Surprisingly, binary search helps us accomplish this task. We binary search on the answer, the time it takes for the chef to be caught. Suppose we want to check whether the chef can be found in T seconds. Then, we pick the best enemy to run in each direction by selecting the one who will get the furthest running in that direction, based on their starting position and T times their velocity.
If the best enemy to run towards lower positions is a different enemy from the one best suited to running towards higher positions, we can simply check whether these two chefs can meet within T seconds. If the same enemy can get to the lowest or the highest position of any of the enemies, though, we do casework on whether this particular enemy will run towards lower or higher positions. In each case, we pick the remaining enemy best at running in the opposite direction and check whether this enemy, along with our best enemy, can catch the chef in T seconds. If neither of these cases allow us to catch the chef in T seconds, then doing so is impossible.
Finally, to get our answer, we simply take the minimum of the answers given by our two original cases.
I'm very curious to hear about the thoughts of Div 1 coders who left Secret Recipe for last. As a Div 2 participant, I didn't find it ridiculously hard, but it was the least solved problem in both divisions. The questions SUBSETS and IDXSUM seem much harder conceptually from a quick glance at their editorials.
How to solve slush question without Bi < Fi constraint (Bi and Fi can be any value between 0 and 1e5)?
This wouldn't change the solution in any way, as the problem stipulates that Chef must sell a customer their favorite flavor if that flavor is in stock. So, whether we add Bi or Fi doesn't depend on their values--only on which flavors are available.
EDIT: This is incorrect, see the below comment. I suspect that this problem actually becomes rather difficult with this constraint eliminated, and maybe even impossible with the given input size and time limit. I'll think about it some more and will post an update if I come up with a solution.
Actually, solution will change because you can finish stock of some other drink which will be demanded later earlier. With the constraint Bi<Fi it was always unoptimal. But now it can also be optimal.
Oh, right--thanks for the correction!