def test_very_large_k(self):
     code = sec.SingleEditCode(512)
     for i in range(1000):
         x = sec.QaryString(4, np.random.randint(4, 1024))
         x_enc, n, N, l = code.encode(x)
         x_enc_m, mtype, pos, symbol = x_enc.mutate(mtype="insert")
         x_pred = code.decode(x_enc_m, n, N, l)
         self.assertTrue(x_pred == x)
class TestSumBalancedCode(unittest.TestCase):
    k = 32
    code = sec.SumBalancedCode(k)
    for i in range(1000):
        s = sec.QaryString(q=4, val=np.random.randint(low=0, high=4, size=100))
        x, l = code.encode(s)
        assert sec.is_k_sum_balanced(x.val, k, q=4)
        s_pred = code.decode(x, l)
        assert s == s_pred
 def test1_delete_random_short(self):
     for i in range(1000):
         y = sec.QaryString(2, np.random.randint(0, 2, 10))
         code = sec.SVTCode()
         yp, _, pos, symbol = y.mutate(mtype="delete")
         u = np.random.randint(low=1, high=pos + 2)
         y_pred = code.decode_deletion(yp,
                                       y.syndrome,
                                       u,
                                       10,
                                       symbol,
                                       verbose=False)
         self.assertTrue(y_pred == y)
 def test1_delete_fixed_long(self):
     y = sec.QaryString(q=2, val=[0, 1] * 1000)
     symbol = 0
     pos = 4
     yp = y._delete(pos, idx_of_pos=0)
     code = sec.SVTCode()
     y_pred = code.decode_deletion(yp,
                                   y.syndrome,
                                   pos + 1,
                                   3,
                                   symbol,
                                   verbose=False)
     self.assertEqual(y_pred, y)
 def test1_insert_fixed_short(self):
     y = sec.QaryString(q=2, val=[0, 1, 0, 1, 0, 1, 0, 1])
     symbol = 0
     pos = 4
     yp = y._insert(pos, symbol, idx_of_pos=0)
     code = sec.SVTCode()
     y_pred = code.decode_insertion(yp,
                                    y.syndrome,
                                    pos + 1,
                                    3,
                                    symbol,
                                    verbose=False)
     self.assertEqual(y_pred, y)
Ejemplo n.º 6
0
# -*- coding: utf-8 -*-
"""
Created on Mon Mar 23 23:31:11 2020

@author: Daniel Tan
"""

import numpy as np
import single_edit_code as sec

# generate random quaternary string of length 40
x = sec.QaryString(4, np.random.randint(0, high=3, size=160))

# print quaternary string to visualize
print(x)

# the value of k determines the redundancy of the code,
# it should be roughly 36*log_4(codeword_length)
# Since codeword_length might not be known a priori, we can set to
# roughly 36*log_4(message_length) which is 36*log_4(160) ~ 132 in our case.
# It is possible to use lower values of k, but then the redundancy is higher. Note
# that higher k = more precomputation and slower encoding/decoding.

# this command constructs the code, this does some precomputation such
# as building index for forbidden words, that reduces the encoding time later.
code = sec.SingleEditCode(k=132)

# perform the encoding, returning the encoded quaternary string string + parameters needed during decoding.
x_enc, n, N, l = code.encode(x)
# print quaternary string to visualize
print('x_enc', x_enc)