#!/usr/bin/env python3 """ @package docstring Manchester encoder Encodes a file using the manchester encoding and outputs it as audio file See https://www.youtube.com/watch?v=8BhjXqw9MqI&list=PLowKtXNTBypH19whXTVoG3oKSuOcw_XeW&index=3 and following videos by awesome Ben Eater Very slow and inefficient implementation, meant only to be clear and didactic @author Daniele Verducci This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . """ import os import sys import logging import wave import struct NAME = 'manchester-encoder' VERSION = '0.1' DESCRIPTION = 'Encodes a file using the manchester encoding and outputs it as audio file' FRAME_DELIMITER = 126 # (01111110) FRAME_DELIMITER_EVERY_BYTES = 64 PREAMBLE_DURATION = 128 AUDIO_VOLUME = 16384 # 0 to 32767 AUDIO_BITRATE = 44100 class Main: def __init__(self): self._log = logging.getLogger('main') self.audioSink = None def run(self, inputFile, outputFile, clock): self.clock = int(clock) # Check clock speed is valid if self.clock > (AUDIO_BITRATE / 2): raise ValueError("Clock too high: max supported clock is {}".format(AUDIO_BITRATE/2)) # Open output audio file self.audioSink = wave.open(outputFile, 'w') self.audioSink.setnchannels(1) # mono self.audioSink.setsampwidth(2) self.audioSink.setframerate(44100.0) # Preamble self.outputPreamble() # Read input file bytesToEncode = [] with open(inputFile, 'rb') as f: position = 0 while 1: byte = f.read(1) if not byte: # Finished reading file # Terminate with delimiter and exit #self.encodeByte(FRAME_DELIMITER, encode_frame_delimiter=False) break byte = byte[0] # Every 64 bytes, outputs a frame delimiter: 01111110 # This is used by receiver to syncronize to the start of a byte if position % FRAME_DELIMITER_EVERY_BYTES == 0: self.encodeByte(FRAME_DELIMITER, encode_frame_delimiter=False) position = position + 1 # Encode byte self.encodeByte(byte) self.audioSink.close() self._log.info('Completed') def encodeByte(self, byte, encode_frame_delimiter=True): # Encodes a byte with the Mancester Encoding # Note that the byte is read from the most important to the least important bit # Es: 10000010 is not 130, but 65 consecutiveOnes = 0 for x in range(8): # Shift byte and take last bit (with bitwise AND) lastBit = ( byte >> x ) & 1 # Write bit self.encodeBit(lastBit) # If we have 5 consecutive "1", add a 0 after, to avoid being interpreted as a frame delimiter (01111110)) if lastBit: consecutiveOnes = consecutiveOnes + 1 else: consecutiveOnes = 0 if consecutiveOnes == 5 and encode_frame_delimiter: self.encodeBit(0) consecutiveOnes = 0 def outputPreamble(self): # Outputs the preable: a sequence of 64 "1" and "0" used to facilitate the receiver # syncronizing on our clock. The sequence starts with 1 and ends with 0 for x in range(PREAMBLE_DURATION): self.encodeBit(x % 2 == 0) def encodeBit(self, bit): # Encodes a single bit in a pair of bits to be written on the media. # The "1" is encoded as a transition from 0 to 1 (01) while the "0" is endoded as a # transition from 1 to 0 (10) if bit: self.out(0) self.out(1) else: self.out(1) self.out(0) def out(self, encodedBit): # Write already encoded bit on the media value = 0 if encodedBit: value = AUDIO_VOLUME else: value = -AUDIO_VOLUME # The duration of the signal is calculated based on the user-specified clock speed duration = int(AUDIO_BITRATE / self.clock) for x in range(duration): self.audioSink.writeframesraw(struct.pack('