45 lines
1.4 KiB
Python
45 lines
1.4 KiB
Python
#!/usr/bin/env python
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# Foreach minion, x[0] = time, x[1]/x[2] = probability of response.
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inputs = [ [[5, 1, 5], [10, 1, 2]], [[390, 185, 624], [686, 351, 947], [276, 1023, 1024], [199, 148, 250]] ]
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solutions = [ [1,0], [2,3,0,1] ]
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minions = inputs
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def answer(minions):
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"""Calculate the optimal interrogation order, providing the answer in the shortest time"""
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""" T[1] + (1-P[1])*T[2] + (1-P[1])(1-P[2])*T[3]"""
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optimal = [ [], 0 ]
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for i,minion in enumerate(minions):
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optimal = goDeeper(optimal,[i],minions,1-probabilityOf(minion),minion[0])
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return optimal[0]
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def goDeeper(optimal,used,minions,pn,t):
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"""My recursion function to evaluate all the combinations of interrogation orders"""
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for i, minion in enumerate(minions):
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if i not in used:
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p = pn*(1-probabilityOf(minion))
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time = t + (pn*minion[0])
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curr = used+[i]
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if len(curr) == len(minions):
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if len(optimal[0])>0:
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if time < optimal[1]:
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optimal = [ curr, time ]
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else:
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optimal = [ curr, time ]
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else:
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optimal = goDeeper(optimal,curr,minions,p,time)
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return optimal
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def probabilityOf(minion):
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return ((1.0*minion[1])/minion[2])
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for i in range(0,len(solutions)):
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print answer(inputs[i])
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print solutions[i]
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