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Introduction. This software implements a variation of the famous N-Queens problem [A] which asks to compute all NxN chess boards with N queens, placed so that no two queens threaten each other; thus, a solution requires that no two queens share the same row, column, or diagonal. The variation under consideration here is that in addition it is required of valid boards that:

 no 3 or more queens be in a straight line.

Here are two examples of lines of queens on an 8x8 board. The left board has a line of length 4 with slope 2. The line on the right has length 3 and slope -3.

   _|_|_|_|_|_|_|_|        _|_|_|_|_|_|_|_|
   _|_|_|Q|_|_|_|_|        _|_|Q|_|_|_|_|_|
   _|_|_|_|_|_|_|_|        _|_|_|_|_|_|_|_|
   _|_|Q|_|_|_|_|_|        _|_|_|_|_|_|_|_|
   _|_|_|_|_|_|_|_|        _|_|_|Q|_|_|_|_|
   _|Q|_|_|_|_|_|_|        _|_|_|_|_|_|_|_|
   _|_|_|_|_|_|_|_|        _|_|_|_|_|_|_|_|
   Q|_|_|_|_|_|_|_|        _|_|_|_|Q|_|_|_|

From now on we use the term N-Queens-With-Lines to refer to this generalisation of the N-Queens problem. Here is an example of a solution to the 8-Queens-With-Lines problem:

   _|_|_|_|_|Q|_|_
   _|Q|_|_|_|_|_|_
   _|_|_|_|_|_|Q|_
   Q|_|_|_|_|_|_|_
   _|_|_|Q|_|_|_|_
   _|_|_|_|_|_|_|Q
   _|_|_|_|Q|_|_|_
   _|_|Q|_|_|_|_|_

Assumptions and insights. The N-Queens problem is NP-complete [B]. Although we have no proof, it is likely that the N-Queens-With-Lines problem is also NP-complete. It is therefore extremely unlikely that an efficient algorithm exist. For this reason, and given the limited time budget, we implement a simple backtracking algorithm, with an emphasis on clarity of the algorithm. In particular, we use a somewhat brute-force approach to the identification of prohibited lines:

  • We simply consider all triples of queens, compute the slope(s) they form and check if they form a line with three or more points. There is redundancy that could probably be eliminated by preprocessing (ordering) queens by row / column (see many algorithm in computational geometry, e.g. the convex hull problem [C]). We avoid such algorithmic cleverness because it makes the code much more complicated, with, at best (NP-completeness) a modest speedup. This also allows us to keep the core algorithm (the method genericQueens in Algorithm.java) virtually identical with that for the original N-Queens problem. This makes verification easier.

  • The core insight making this problem digestible is that slopes of lines on discrete grids are always rational numbers, this allows us to avoid the many intricacies and pitfalls of Java's float (32-bit IEEE-754) and double (64-bit IEEE-754) data types [D]. Instead, we use a conventional Rational data type (in Rational.java). The main problems of rational numbers, exploding numerator and denominator, are avoided here, since the exponential nature of (our approach to) the N-Queens-With-Lines problem ensures small numerator and denominator for practically feasible N.

Verification plan. The problem does not come with a customer approved test suite, or other suitable testing oracle. For N >= 8 visual inspection of solutions becomes unreliable quickly. Moreover it is not easy to work out if the algorithm might have 'forgotten' a solution. In addition, the notion of line is itself somewhat tricky, and a specification that can be tested against, might be wrong. Finally, we have limited time. Hence we decided to use the following lightweight approach, based on counting and testing.

  1. Implement an additional solver for the original N-Queens problem.

  2. Verify the solver from (1) simply by counting solutions and comparing them with the official number of solutions from the relevant entry in the On-Line Encyclopedia of Integer Sequences [E].

  3. Use the solver from (1) to get a second solver (very inefficient) for the N-Queens-With-Lines problem:

    • First generate all N-Queens boards
    • Then filter all boards that contains lines with 3 or more points
  4. Compare the two solvers of the N-Queens-With-Lines problem against each other. More precisely, compare if the find identical numbers of solutions.

This is not a perfect verification strategy and with more time & resources, better testing could be done.

Libraries and tools. Since I have not written (non-trivial) Java before, I am not familiar with the Java library and tooling eco system. I therefore write everything I need by hand. In particular, I have not used Java build tools like Maven or Gradle before, moreover, the whole project fits in one directory, so I won't use them here.

Compiling the code. All relevant code is in the src directory directory and can be compiled by invoking

javac -d . src/*.java 

on the command line. The compiled code is added to the repo's root where it can be tested and run.

Testing the code. The built-in suite of 26 tests can be run from the command line by invoking

java Tests 

The tester returns the number of failed tests on exit (hence 0 if all tests pass). This can be used for test automation.

Running the code. The program is run on the command line by invoking

java Main <options>

The program has the following command line parameters.

-n <int>    This parameter is required, must be
            non-negative and determines board size.

-visualise  This optional parameter prints out all
            found valid boards. 

Regardless of the optional parameter, the program will always print out the number of valid boards found.

Here is an example use case:

java Main -n 8 -visualise

Feasible parameters. In our experience, using a 2020 MacBook Pro, solving the N-Queens-With-Lines for N=15 takes about 2 minutes. N=16 takes about 13 minutes.

Bibliography

[A] https://en.wikipedia.org/wiki/Eight_queens_puzzle

[B] http://www.claymath.org/events/news/8-queens-puzzle

[C] https://en.wikipedia.org/wiki/Convex_hull

[D] https://en.wikipedia.org/wiki/IEEE_754

[E] http://oeis.org/A000170

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