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Problem: Maximum Planar Subset
Given is a set C of n chords of a circle (see Figure 1 (a)). We assume that no two chords of C share an endpoint.
Number the endpoints of these chords from 0 to 2n − 1, clockwise around the circle (see Figure 1 (c)). Let
M(i, j), i ≤ j, denote the number of chords in the maximum planar subset (i.e., no two chords overlap each
other in the subset) in the region formed by the chord ij and the arc between the endpoints i and j (see
Figure 1 (d)). As the example shown in Figure 1 (a), M(2, 7) = 1, M(3, 3) = 0, and M(0, 11) = 3. You are
asked to write a program that computes the number of chords in the maximum planar subset in a circle of n
chords, i.e., compute M(0, 2n − 1), and reports the details of each chords, as shown in Figure 1 (b).
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2n−2 1
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(a) A set of chords.
(c) vetrices on the circle (d) M(i, j), i < j 2N−1 (b) Maximum planar subset of chords. M(i, j): number of chords in the maximum planar subset (shaded region) Figure 1: Maximum planar subset. Input The input consists of an integer 2n, 1 ≤ n ≤ 20, 000, denoting the number of vertices on a circle, followed by n lines, each containing two integers a and b (0 ≤ a, b ≤ 2n − 1), denoting two endpoints of a chord. A single “0” (zero) in the input line signifies the end of input. Output The output file reports the number of chords in the maximum planar subset in the input circle of n chords, followed by a list of the two endpoints for each resulting chord in the maximum planar subset (sorted by the first endpoint in the increasing order). Here is an input/output example (see Figure 1): Sample Input Sample Output 12 3 0 4 0 4 1 9 5 7 2 6 8 11 3 10 5 7 8 11 0 Command-line Parameter: The executable binary must be named as “mps” and use the following command format. ./mps
For example, if you would like to run your binary for the input file 12.in and generate a solution named
12.out, the command is as follows:
./mps 12.in 12.out
Required Files:
You need to create a directory named pa2/ (e.g. b06901000 pa2/) which must contain the
following materials:
• A directory named src/ containing your source codes (e.g. maxPlanarSubset.cpp): only *.h, *.hpp,
*.c, *.cpp are allowed in src/, and no directories are allowed in src/;
• An executable binary named mps;
• A makefile named makefile or Makefile that produces an executable binary from your source codes
by simply typing “make”: the binary should be generated under the directory pa2/;
• A text readme file named readme.txt describing how to compile and run your program.
Then please use the following command to compress your directory into a .tgz file:
tar zcvf .tgz
The submission file should be named as pa2.tgz (e.g. b06901000 pa2.tgz). For example,
if your student ID is b06901000, then you should use the command below.
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tar zcvf b06901000 pa2.tgz b06901000 pa2/
Please submit your .tgz file to the NTU COOL system before 1pm, November 17, 2019 (Sunday).
To make sure that your submission satisfies all the requirements, we provide a script checkSubmitPA2.sh to
check your .tgz file by the command below:
bash checkSubmitPA2.sh
For example,
bash checkSubmitPA2.sh b06901000 pa2.tgz
Language/Platform:
1. Language: C or C++.
2. Platform: Linux.
Evaluation:
An individual score per test case is determined by the correctness of the output result as well as the file format.
The runtime limit for each case is 60 seconds. For fair evaluation, please apply the -O3 optimization for the
compilation. Three input test cases are provided and more hidden test cases will be used for the final test.
For any questions, please email Chen-Hao Hsu at r07943107@ntu.edu.tw, Yu-Jie Cai at r07943111@ntu.edu.tw,
or Chien-Hao Tsou at d08943011@ntu.edu.tw. Thank you so much for your cooperation. Have fun with this
programming assignment!
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