Codeforces Round #361 (Div. 2) Editorial

Revision en1, by I_Love_Tina, 2016-07-06 22:30:52

699A: Mike and Cellphone

Author:danilka.pro.

Developed:I_Love_Tina,ThatMathGuy

We can try out all of the possible starting digits, seeing if we will go out of bounds by repeating the same movements. If it is valid and different from the correct one, we output "NO", otherwise we just output "YES".

C++ code
Python code

700B: B. Mike and Shortcuts

Author:danilka.pro,I_Love_Tina

Developed:I_Love_Tina,ThatMathGuy

We can build a complete graph where the cost of going from point i to point j if |i - j| if ai! = j and 1 if ai = j.The we can find the shortest path from point 1 to point i.One optimisation is using the fact that there is no need to go from point i to point j if j ≠ s[i],j ≠ i - 1,j ≠ i + 1 so we can add only edges (i, i + 1),(i, i - 1),(i, s[i]) with cost 1 and then run a bfs to find the shortest path for each point i.

You can also solve the problem by taking the best answer from left and from the right and because ai ≤ ai + 1 then we can just iterate for each i form 1 to n and get the best answer from left and maintain a deque with best answer from right.

Complexity is O(N).

C++ code with queue
C++ code with deque
Python code

What if you have Q queries Q ≤ 2 × 105 of type (xi, yi) and you have to answer the minimal distance from xi to yi.

C. Mike and Chocolate Thieves

Author:danilka.pro,I_Love_Tina

Developed:I_Love_Tina,ThatMathGuy

Suppose we want to find the number of ways for a fixed n.

Let a, b, c, d ( 0 < a < b < c < d ≤ n ) be the number of chocolates the thieves stole. By our condition, they have the form b = ak, c = ak2, d = ak3,where k is a positive integer. We can notice that , so for each k we can count how many a satisfy the conditions 0 < a < ak < ak2 < ak3 ≤ n, their number is . Considering this, the final answer is .

Notice that this expression is non-decreasing as n grows, so we can run a binary search for n.

Total complexity: Time ~ , Space: O(1).

C++ code

D. Friends and Subsequences

Author:I_Love_Tina

Developed:I_Love_Tina,ThatMathGuy

First of all it is easy to see that if we fix l then have . So we can just use binary search to find the smallest index rmin and biggest index rmax that satisfy the equality and add rmax - rmin + 1 to our answer. To find the min and max values on a segment [l, r] we can use a simple Segment Tree or a Range-Minimum Query data structure.

The complexity is time and space.

C++ code O(N log N)
C++ code O(N log ^ 2 N)

What if you need to count (l1, r1, l2, r2), 1 ≤ l1 ≤ r1 ≤ n, 1 ≤ l2 ≤ r2 ≤ n and .

E. Mike and Geometry Problem

Author:I_Love_Tina

Developed:I_Love_Tina,ThatMathGuy

Let define the following propriety:if the point i is intersected by p segments then in our sum it will be counted times,so our task reduce to calculate how many points is intersected by i intervals 1 ≤ i ≤ n.Let dp[i] be the number of points intersected by i intervals.Then our answer will be . We can easily calculate array dp using a map and partial sum trick.

The complexity and memory is and O(n).

C++ code

what if where l, r are given in input.

I'm really sorry for problem A because it was harder than ussually.

History

 
 
 
 
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  Rev. Lang. By When Δ Comment
en13 English I_Love_Tina 2016-08-29 20:22:51 343 Reverted to en11
en12 English I_Love_Tina 2016-08-29 20:20:18 343
en11 English I_Love_Tina 2016-07-16 17:57:54 27 Tiny change: 'e can use a simple Segment Tree or a Range-Min' -> 'e can use Range-Min'
en10 English I_Love_Tina 2016-07-09 14:40:24 1612
en9 English I_Love_Tina 2016-07-08 12:27:35 936
en8 English I_Love_Tina 2016-07-07 10:51:20 2 Tiny change: '[Mike and C' -> '[A.Mike and C'
en7 English I_Love_Tina 2016-07-07 10:50:58 12
en6 English I_Love_Tina 2016-07-06 23:38:47 3421
en5 English I_Love_Tina 2016-07-06 23:29:51 672
en4 English I_Love_Tina 2016-07-06 23:09:25 1174
en3 English I_Love_Tina 2016-07-06 22:51:58 158 Tiny change: ' sum trick [here you ' -> ' sum trick,[here you '
en2 English I_Love_Tina 2016-07-06 22:39:45 18
en1 English I_Love_Tina 2016-07-06 22:30:52 12785 Initial revision (published)