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authorJérémy Zurcher <jeremy@asynk.ch>2013-07-10 00:31:50 +0200
committerJérémy Zurcher <jeremy@asynk.ch>2013-07-10 00:31:50 +0200
commitc1fe6785be5b7ad1febddae7b3e9960f460bd2fe (patch)
treec47f4b59480f7a3bb321c7ae82b38df10cdb0824 /06-puzzle-challenge/magicSeriesSolver.py
parent4b0d40561c6197236095fa0b62e7522d023e7968 (diff)
downloadcoursera-c1fe6785be5b7ad1febddae7b3e9960f460bd2fe.zip
coursera-c1fe6785be5b7ad1febddae7b3e9960f460bd2fe.tar.gz
Discrete : add 06-puzzle-challenge assignment
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diff --git a/06-puzzle-challenge/magicSeriesSolver.py b/06-puzzle-challenge/magicSeriesSolver.py
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+#!/usr/bin/python
+# -*- coding: utf-8 -*-
+
+def solveIt(n):
+ # Modify this code to run your puzzle solving algorithm
+
+ # define the domains of all the variables (0..n-1)
+ domains = [range(0,n)]*n
+
+ # start a trivial depth first search for a solution
+ sol = tryall([],domains)
+
+ # prepare the solution in the specified output format
+ # if no solution is found, put 0s
+ outputData = str(n) + '\n'
+ if sol == None:
+ print 'no solution found.'
+ outputData += ' '.join(map(str, [0]*n))+'\n'
+ else:
+ outputData += ' '.join(map(str, sol))+'\n'
+
+ return outputData
+
+
+# this is a depth first search of all assignments
+def tryall(assignment, domains):
+ # base-case: if the domains list is empty, all values are assigned
+ # check if it is a solution, return None if it is not
+ if len(domains) == 0:
+ if checkIt(assignment):
+ return assignment
+ else:
+ return None
+
+ # recursive-case: try each value in the next domain
+ # if we find a solution return it. otherwise, try the next value
+ else:
+ for v in domains[0]:
+ sol = tryall(assignment[:]+[v],domains[1:])
+ if sol != None:
+ return sol
+
+
+# checks if an assignment is feasible
+def checkIt(sol):
+ n = len(sol)
+ count = {}
+ for i in range(0,n):
+ count[i] = 0
+ for i in range(0,n):
+ count[sol[i]] += 1
+ for i in range(0,n):
+ if sol[i] != count[i]:
+ return False
+ return True
+
+
+import sys
+
+if __name__ == "__main__":
+ if len(sys.argv) > 1:
+ try:
+ n = int(sys.argv[1].strip())
+ except:
+ print sys.argv[1].strip(), 'is not an integer'
+ print 'Solving Size:', n
+ print(solveIt(n))
+
+ else:
+ print('This test requires an instance size. Please select the size of problem to solve. (i.e. python magicSeriesSolver.py 5)')
+