108 lines
1.9 KiB
Python
108 lines
1.9 KiB
Python
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import random
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import math
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n = 8
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k = 3
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def createX(x_string):
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x_list = []
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for i in x_string:
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x_list.append(int(i))
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return x_list
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x_string ="11111010"
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#print(x_string)
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x = createX(x_string)
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#print(x)
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def findS():
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for s_candidate in range(k, n+1):
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binom = math.factorial(s_candidate) / ( math.factorial(k-1) * (math.factorial(s_candidate - (k-1))) )
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if binom >= n:
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return s_candidate
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s = findS()
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#print(s)
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def makeOneSeq(seq):
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seq_temp = seq.copy()
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ones_remainding_counter = k - 1
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while ones_remainding_counter != 0:
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rand_idx = random.randint(0, s - 1)
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if seq_temp[rand_idx] == 0:
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seq_temp[rand_idx] = 1
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ones_remainding_counter -= 1
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return seq_temp
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def makeSequences():
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sequnces = [ [0 for _ in range(s)] for j in range(n) ]
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for i, seq in enumerate(sequnces):
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candidate = makeOneSeq(seq)
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while( candidate in sequnces):
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candidate = makeOneSeq(seq)
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sequnces[i] = candidate
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sequnces.sort()
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return sequnces
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sequnces = makeSequences()
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#print(sequnces)
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def user_send(rands, i):
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gs_for_servers = [[rands[l] * z + int(i[l]) for l in range(0, s)] for z in range(1, k+1)]
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return gs_for_servers
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def server_comp(gs):
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F = 0
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for j in range(0, n):
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f = 1
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j_bitlist = sequnces[j]
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for l in range(s):
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if j_bitlist[l] == 1:
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f *= gs[l]
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F += f * x[j]
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return F
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def servers_comp(gs_for_servers):
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Fs = []
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for gs in gs_for_servers:
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Fs.append(server_comp(gs))
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return Fs
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def poly_interpolation(x, Fs):
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add_product = 0
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for i in range(0, k):
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mult_product = 1
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for j in range(0, k):
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if j != i:
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mult_product *= (x - (j+1))/((i+1) - (j+1))
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add_product += mult_product * Fs[i]
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return int(add_product)
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def protocol(i):
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rands = [random.randint(1,20) for _ in range(s)]
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gs_for_servers = user_send(rands, i)
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Fs = servers_comp(gs_for_servers)
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F0 = poly_interpolation(0, Fs)
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# print(F0)
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return F0
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for i in range(n):
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i_bitlist = sequnces[i]
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F0 = protocol(i_bitlist)
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assert (F0 == x[i])
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