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Overview

A program in Python 3.6 that solves KenKen puzzles, by representing the game as a Constraint Satisfaction Problem (CSP).

Puzzle representation

Board

The KenKen board is represented by a square n-by-n grid of cells. The grid may contain between 1 and n boxes (cages) represented by a heavily outlined perimeter. Each cage will contain in superscript: the target digit value for the cage followed by a mathematical operator.

kenken

Constraints

Each valid solution must follow the below rules:

  • The only numbers you may write are 1 to N for a NxN size puzzle.
  • A number cannot be reapeated within the same row.
  • A number cannot be reapeated within the same solumn.
  • In a one-cell cage, just write the target number in that cell.
  • Each "cage" (region bounded by a heavy border) contains a "target number" and an arithmetic operation. You must fill that cage with numbers that produce the target number, using only the specified arithmetic operation. Numbers may be repeated within a cage, if necessary, as long as they do not repeat within a single row or column.

Input file

The input format of text file, used to describe a puzzle is:

Puzzle_size
[Square_indexes1] Cage_operator1 Cage_target1
[Square_indexes2] Cage_operator2 Cage_target2
[Square_indexes3] Cage_operator3 Cage_target3
...
[Square_indexesM] Cage_operatorM Cage_targetM

For example, the text representing the above puzzle is:

6
[(0,0),(1,0)] add 11
[(0,1),(0,2)] div 2
[(0,3),(1,3)] mult 20
[(0,4),(0,5),(1,5),(2,5)] mult 6
[(1,1),(1,2)] sub 3
[(1,4),(2,4)] div 3
[(2,0),(2,1),(3,0),(3,1)] mult 240
[(2,2),(2,3)] mult 6
[(3,2),(4,2)] mult 6
[(3,3),(4,3),(4,4)] add 7
[(3,4),(3,5)] mult 30
[(4,0),(4,1)] mult 6
[(4,5),(5,5)] add 9
[(5,0),(5,1),(5,2)] add 8
[(5,3),(5,4)] div 2

Algorithms

Algorithms information

You can select among 5 algorithms to solve a puzzle. These are:

  • Backtracking (command line parameter "BT").
  • Backtracking with Minimum remaining values (command line parameter "BT+MRV").
  • Forward checking (command line parameter "FC").
  • Forward checking with Minimum remaining values (command line parameter "FC+MRV").
  • Maintaining arc consistency (command line parameter "MAC").

Algorithms comparison

The below table represents the number of assigments used from each algorithm, to solve different size puzzles.

Size BT BT+MRV FC FC+MRV MAC
3x3 10 10 9 11 9
4x4 33 24 26 18 19
5x5 89 55 42 33 26
6x6 947 215 48 68 73
7x7 2600 957 278 320 66

Usage

For windows based systems python kenken.py [input file] [algorithm]

For linux bases systems py kenken.py [input file] [algorithm]

References

Artificial Intelligence: A Modern Approach

aima-python