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* Tighten up psf/black and flake8 * Fix some tests * Fix some E741 * Fix some E741 * updating DIRECTORY.md Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com>
314 lines
9.5 KiB
Python
314 lines
9.5 KiB
Python
# Author: João Gustavo A. Amorim & Gabriel Kunz
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# Author email: joaogustavoamorim@gmail.com and gabriel-kunz@uergs.edu.br
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# Coding date: apr 2019
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# Black: True
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"""
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* This code implement the Hamming code:
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https://en.wikipedia.org/wiki/Hamming_code - In telecommunication,
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Hamming codes are a family of linear error-correcting codes. Hamming
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codes can detect up to two-bit errors or correct one-bit errors
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without detection of uncorrected errors. By contrast, the simple
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parity code cannot correct errors, and can detect only an odd number
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of bits in error. Hamming codes are perfect codes, that is, they
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achieve the highest possible rate for codes with their block length
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and minimum distance of three.
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* the implemented code consists of:
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* a function responsible for encoding the message (emitterConverter)
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* return the encoded message
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* a function responsible for decoding the message (receptorConverter)
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* return the decoded message and a ack of data integrity
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* how to use:
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to be used you must declare how many parity bits (sizePari)
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you want to include in the message.
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it is desired (for test purposes) to select a bit to be set
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as an error. This serves to check whether the code is working correctly.
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Lastly, the variable of the message/word that must be desired to be
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encoded (text).
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* how this work:
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declaration of variables (sizePari, be, text)
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converts the message/word (text) to binary using the
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text_to_bits function
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encodes the message using the rules of hamming encoding
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decodes the message using the rules of hamming encoding
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print the original message, the encoded message and the
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decoded message
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forces an error in the coded text variable
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decodes the message that was forced the error
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print the original message, the encoded message, the bit changed
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message and the decoded message
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"""
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# Imports
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import numpy as np
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# Functions of binary conversion--------------------------------------
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def text_to_bits(text, encoding="utf-8", errors="surrogatepass"):
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"""
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>>> text_to_bits("msg")
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'011011010111001101100111'
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"""
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bits = bin(int.from_bytes(text.encode(encoding, errors), "big"))[2:]
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return bits.zfill(8 * ((len(bits) + 7) // 8))
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def text_from_bits(bits, encoding="utf-8", errors="surrogatepass"):
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"""
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>>> text_from_bits('011011010111001101100111')
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'msg'
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"""
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n = int(bits, 2)
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return n.to_bytes((n.bit_length() + 7) // 8, "big").decode(encoding, errors) or "\0"
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# Functions of hamming code-------------------------------------------
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def emitterConverter(sizePar, data):
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"""
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:param sizePar: how many parity bits the message must have
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:param data: information bits
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:return: message to be transmitted by unreliable medium
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- bits of information merged with parity bits
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>>> emitterConverter(4, "101010111111")
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['1', '1', '1', '1', '0', '1', '0', '0', '1', '0', '1', '1', '1', '1', '1', '1']
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"""
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if sizePar + len(data) <= 2 ** sizePar - (len(data) - 1):
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print("ERROR - size of parity don't match with size of data")
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exit(0)
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dataOut = []
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parity = []
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binPos = [bin(x)[2:] for x in range(1, sizePar + len(data) + 1)]
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# sorted information data for the size of the output data
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dataOrd = []
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# data position template + parity
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dataOutGab = []
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# parity bit counter
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qtdBP = 0
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# counter position of data bits
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contData = 0
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for x in range(1, sizePar + len(data) + 1):
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# Performs a template of bit positions - who should be given,
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# and who should be parity
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if qtdBP < sizePar:
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if (np.log(x) / np.log(2)).is_integer():
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dataOutGab.append("P")
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qtdBP = qtdBP + 1
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else:
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dataOutGab.append("D")
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else:
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dataOutGab.append("D")
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# Sorts the data to the new output size
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if dataOutGab[-1] == "D":
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dataOrd.append(data[contData])
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contData += 1
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else:
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dataOrd.append(None)
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# Calculates parity
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qtdBP = 0 # parity bit counter
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for bp in range(1, sizePar + 1):
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# Bit counter one for a given parity
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contBO = 0
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# counter to control the loop reading
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contLoop = 0
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for x in dataOrd:
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if x is not None:
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try:
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aux = (binPos[contLoop])[-1 * (bp)]
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except IndexError:
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aux = "0"
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if aux == "1":
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if x == "1":
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contBO += 1
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contLoop += 1
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if contBO % 2 == 0:
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parity.append(0)
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else:
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parity.append(1)
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qtdBP += 1
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# Mount the message
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ContBP = 0 # parity bit counter
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for x in range(0, sizePar + len(data)):
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if dataOrd[x] is None:
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dataOut.append(str(parity[ContBP]))
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ContBP += 1
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else:
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dataOut.append(dataOrd[x])
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return dataOut
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def receptorConverter(sizePar, data):
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"""
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>>> receptorConverter(4, "1111010010111111")
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(['1', '0', '1', '0', '1', '0', '1', '1', '1', '1', '1', '1'], True)
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"""
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# data position template + parity
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dataOutGab = []
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# Parity bit counter
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qtdBP = 0
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# Counter p data bit reading
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contData = 0
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# list of parity received
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parityReceived = []
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dataOutput = []
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for x in range(1, len(data) + 1):
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# Performs a template of bit positions - who should be given,
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# and who should be parity
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if qtdBP < sizePar:
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if (np.log(x) / np.log(2)).is_integer():
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dataOutGab.append("P")
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qtdBP = qtdBP + 1
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else:
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dataOutGab.append("D")
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else:
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dataOutGab.append("D")
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# Sorts the data to the new output size
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if dataOutGab[-1] == "D":
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dataOutput.append(data[contData])
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else:
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parityReceived.append(data[contData])
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contData += 1
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# -----------calculates the parity with the data
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dataOut = []
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parity = []
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binPos = [bin(x)[2:] for x in range(1, sizePar + len(dataOutput) + 1)]
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# sorted information data for the size of the output data
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dataOrd = []
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# Data position feedback + parity
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dataOutGab = []
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# Parity bit counter
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qtdBP = 0
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# Counter p data bit reading
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contData = 0
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for x in range(1, sizePar + len(dataOutput) + 1):
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# Performs a template position of bits - who should be given,
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# and who should be parity
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if qtdBP < sizePar:
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if (np.log(x) / np.log(2)).is_integer():
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dataOutGab.append("P")
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qtdBP = qtdBP + 1
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else:
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dataOutGab.append("D")
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else:
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dataOutGab.append("D")
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# Sorts the data to the new output size
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if dataOutGab[-1] == "D":
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dataOrd.append(dataOutput[contData])
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contData += 1
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else:
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dataOrd.append(None)
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# Calculates parity
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qtdBP = 0 # parity bit counter
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for bp in range(1, sizePar + 1):
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# Bit counter one for a certain parity
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contBO = 0
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# Counter to control loop reading
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contLoop = 0
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for x in dataOrd:
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if x is not None:
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try:
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aux = (binPos[contLoop])[-1 * (bp)]
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except IndexError:
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aux = "0"
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if aux == "1":
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if x == "1":
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contBO += 1
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contLoop += 1
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if contBO % 2 == 0:
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parity.append("0")
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else:
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parity.append("1")
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qtdBP += 1
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# Mount the message
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ContBP = 0 # Parity bit counter
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for x in range(0, sizePar + len(dataOutput)):
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if dataOrd[x] is None:
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dataOut.append(str(parity[ContBP]))
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ContBP += 1
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else:
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dataOut.append(dataOrd[x])
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if parityReceived == parity:
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ack = True
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else:
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ack = False
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return dataOutput, ack
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# ---------------------------------------------------------------------
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"""
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# Example how to use
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# number of parity bits
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sizePari = 4
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# location of the bit that will be forced an error
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be = 2
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# Message/word to be encoded and decoded with hamming
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# text = input("Enter the word to be read: ")
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text = "Message01"
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# Convert the message to binary
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binaryText = text_to_bits(text)
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# Prints the binary of the string
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print("Text input in binary is '" + binaryText + "'")
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# total transmitted bits
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totalBits = len(binaryText) + sizePari
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print("Size of data is " + str(totalBits))
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print("\n --Message exchange--")
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print("Data to send ------------> " + binaryText)
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dataOut = emitterConverter(sizePari, binaryText)
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print("Data converted ----------> " + "".join(dataOut))
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dataReceiv, ack = receptorConverter(sizePari, dataOut)
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print(
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"Data receive ------------> "
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+ "".join(dataReceiv)
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+ "\t\t -- Data integrity: "
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+ str(ack)
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)
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print("\n --Force error--")
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print("Data to send ------------> " + binaryText)
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dataOut = emitterConverter(sizePari, binaryText)
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print("Data converted ----------> " + "".join(dataOut))
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# forces error
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dataOut[-be] = "1" * (dataOut[-be] == "0") + "0" * (dataOut[-be] == "1")
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print("Data after transmission -> " + "".join(dataOut))
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dataReceiv, ack = receptorConverter(sizePari, dataOut)
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print(
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"Data receive ------------> "
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+ "".join(dataReceiv)
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+ "\t\t -- Data integrity: "
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+ str(ack)
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)
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"""
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