I'm studying for TÜBTİAK's second step of Middle-School Competitive Programming branch, which is OI-style. I have translated the problem statement into English, keeping all Turkish proper names.
Time limit: 1 s, memory limit, 64 MB
In the cute town of Ilgınkent, there are $$$n$$$ regions and are connected by $$$n-1$$$ roads, forming a tree-like structure. The distance between a region and all of its neighbors† is equal to 1 unit.
The mayor, Ms Kaya, has decided that it would make certain tasks easier if she organizes the complicated tree structure into roads‡ of length $$$k$$$. Ms Kaya wants you to design an algorithm to determine, for a given $$$k$$$ and a tree $$$T$$$, whether it is possible to split up $$$T$$$ into roads of length $$$k$$$.
† A region is another region's neighbor iff there exists a path between the two regions with no other region within said path.
‡ A road is a collection of edges which forms a continuous path. For example, in the tree
1
|
2-3-4-6
|
5
examples of roads of length 2 are 1-3-5, 2-3-4, and 3-4-5, but not 1-3-6, 2-3-6. An edge may not be in two roads at the same time, making 1-2-3, 2-3-4; 2-3-4, 3-4-6 etc. invalid.
Input.
The first line contains the integer $$$n$$$. The next $$$n-1$$$ lines contain a description of Ilgınkent, where the line "u v"
(w/o the quotes) means that there is a road between region $$$u$$$ and region $$$v$$$.
Output.
The output should be a single line — a bit array made of $$$0$$$ and $$$1$$$. For every $$$k$$$ output $$$1$$$ if the tree can be split up into roads of length $$$k$$$ and $$$0$$$ otherwise, left to right.
Constraints.
- $$$2 \le n \le 10^{5}$$$
- $$$1 \le k \le n-1$$$
- $$$1 \le u, v \le n$$$
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