def three_way_merge(L1,L2,L3): L =  i1 = 0 i2 = 0 i3 = 0 done1 = False done2 = False done3 = False while not (done1 and done2 and done3): if not done1 and (done2 or L1[i1] < L2[i2]) and (done3 or L1[i1] < L3[i3]): L.append(L1[i1]) i1 += 1 done1 = i1 >= len(L1) elif not done2 and (done3 or L2[i2] < L3[i3]): L.append(L2[i2]) i2 += 1 done2 = i2 >= len(L2) else: L.append(L3[i3]) i3 += 1 done3 = i3 >= len(L3) return L
I want to count the worst possible number of comparisons for this algorithm I found, because I have an exam coming up in my algorithms class and I wish to be able to do this kind of analysis. My thought was to write a program that creates many random examples of this "worst case" (which I am guessing is something of the type:
L1 = [9,10,11], L2 = [6,7,8], L3 = [3,4,5], where all the lists are sorted but
L2 have strictly smaller values than
L1, etc.) and then every time I do any comparison I increment a counter and return the final count, and then try to figure out some kind of pattern in the outputs, but this seems to be an inefficient way to go about this.
Is there a way to count this in a similar fashion to the analysis of the classic merge in merge sort?