5D_Heredero_Louis_TM2022/latex/appendix.tex

\appendix

\chapter{Python code base display module}
\label{app:base_py}

\textbf{\emph{All figures, \LaTeX\  and Python files are available on the dedicated \hreffn{https://github.com/LordBaryhobal/5D\_Heredero\_Louis\_TM2022}{GitHub repository}}}

\vspace{12pt}

This module is used by the other generator scripts to display codes.

\begin{tcolorbox}[breakable,colback=white,title=base.py]
\begin{minted}{python}
#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""
This module provides a base class to display codes and enable saving

(C) 2022 Louis Heredero  louis.heredero@edu.vs.ch
"""

import pygame

class Base:
  def __init__(self, width, height, caption):
      pygame.init()

      pygame.display.set_caption(caption)
      self.w = pygame.display.set_mode([width, height])

      self.controls([
          "CTRL + S: save as",
          "ESC: quit"
      ])

  def controls(self, controls, margin=2):
      longest = max(list(map(len, controls))+[10])
      print("┌─" + "─"*(longest+margin) + "─┐")

      _ = "\x1b[1;4mControls:\x1b[0m"
      _ += " "*(longest+margin-9)
      print(f"│ " + _ + " │")
      for c in controls:
          print("│ " + " "*margin + c.ljust(longest) + " │")
      print("└─" + "─"*(longest+margin) + "─┘")

  def main(self):
      pygame.display.flip()

      stop = False
      while not stop:
          event = pygame.event.wait()
          # ESC or close button -> quit
          if event.type == pygame.QUIT:
              stop = True

          elif event.type == pygame.KEYDOWN:
              if event.key == pygame.K_ESCAPE:
                  stop = True

              # CTRL+S -> save image
              elif event.key == pygame.K_s and \
                   event.mod & pygame.KMOD_CTRL:
                  self.save()

  def save(self):
      path = input("Save as: ")
      pygame.image.save(self.w, path)
\end{minted}
\end{tcolorbox}

\chapter{Code 39 python implementation}
\label{app:code39_py}

\begin{tcolorbox}[breakable,colback=white,title=code39.py]
\begin{minted}{python}
#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""
This module can generate Code-39 barcodes

(C) 2022 Louis Heredero  louis.heredero@edu.vs.ch
"""

import pygame

code39_dict = {
    "A": "100001001", "B": "001001001",
    "C": "101001000", "D": "000011001",
    "E": "100011000", "F": "001011000",
    "G": "000001101", "H": "100001100",
    "I": "001001100", "J": "000011100",
    "K": "100000011", "L": "001000011",
    "M": "101000010", "N": "000010011",
    "O": "100010010", "P": "001010010",
    "Q": "000000111", "R": "100000110",
    "S": "001000110", "T": "000010110",
    "U": "110000001", "V": "011000001",
    "W": "111000000", "X": "010010001",
    "Y": "110010000", "Z": "011010000",
    "0": "000110100", "1": "100100001",
    "2": "001100001", "3": "101100000",
    "4": "000110001", "5": "100110000",
    "6": "001110000", "7": "000100101",
    "8": "100100100", "9": "001100100",
    " ": "011000100", "-": "010000101",
    "$": "010101000", "%": "000101010",
    ".": "110000100", "/": "010100010",
    "+": "010001010", "*": "010010100"
}

def code39(text):
    text = text.upper()
    text = list(map(lambda c: code39_dict[c], text))
    return "0".join(text)

def draw_barcode(barcode, win):
    barcode = list(map(int, barcode))
    width = win.get_width()*0.8
    height = win.get_height()*0.5
    thicks = sum(barcode)
    thins = len(barcode)-thicks
    bar_w = width/(thicks*2+thins)

    win.fill((255,255,255))
    x = win.get_width()*0.1
    y = win.get_height()*0.25

    for i, c in enumerate(barcode):
        w = 2*bar_w if c else bar_w
        if i%2 == 0:
            pygame.draw.rect(win, (0,0,0), [x, y, w, height])

        x += w

if __name__ == "__main__":
    import base

    b = base.Base(800, 500, "Code-39 barcode generator")

    barcode = code39("*CODE-39*")
    draw_barcode(barcode, b.w)

    b.main()
\end{minted}
\end{tcolorbox}

\chapter{EAN python implementation}
\label{app:ean_py}

\begin{tcolorbox}[breakable,colback=white,title=ean.py]
\begin{minted}{python}
#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""
This module can generate EAN-8 and EAN-13 barcodes

(C) 2022 Louis Heredero  louis.heredero@edu.vs.ch
"""

import pygame

A = [
    0b0001101,
    0b0011001,
    0b0010011,
    0b0111101,
    0b0100011,
    0b0110001,
    0b0101111,
    0b0111011,
    0b0110111,
    0b0001011
]

# XOR 0b1111111
C = list(map(lambda a: a^127, A))

# Reverse bit order
B = list(map(lambda c: int(f"{c:07b}"[::-1],2), C))

ean13_patterns = [
    "AAAAAA",
    "AABABB",
    "AABBAB",
    "AABBBA",
    "ABAABB",
    "ABBAAB",
    "ABBBAA",
    "ABABAB",
    "ABABBA",
    "ABBABA"
]

def bin_list(n):
    return list(map(int,f"{n:07b}"))

def luhn(digits):
    checksum = sum([
        digits[-i-1]*(3-i%2*2)
        for i in range(len(digits))
    ])
    ctrl_key = 10 - checksum%10
    if ctrl_key == 10:
        ctrl_key = 0

    return ctrl_key

def ean8(digits):
    digits.append(luhn(digits))
    elmts = []

    elmts += [1,0,1] #delimiter
    for digit in digits[:4]:
        elmts += bin_list(A[digit])

    elmts += [0,1,0,1,0] #middle delimiter
    for digit in digits[4:]:
        elmts += bin_list(C[digit])

    elmts += [1,0,1] #delimiter
    return elmts

def ean13(digits):
    pattern = ean13_patterns[digits[0]]
    digits.append(luhn(digits))
    elmts = []

    elmts += [1,0,1] #delimiter
    for d in range(1,7):
        _ = A if pattern[d-1] == "A" else B
        digit = digits[d]
        elmts += bin_list(_[digit])

    elmts += [0,1,0,1,0] #middle delimiter
    for digit in digits[7:]:
        elmts += bin_list(C[digit])

    elmts += [1,0,1] #delimiter
    return elmts

def draw_barcode(barcode, win):
    width = win.get_width()*0.8
    height = win.get_height()*0.5
    bar_w = width/len(barcode)
    rnd_bar_w = round(bar_w)

    win.fill((255,255,255))
    x = win.get_width()*0.1
    y = win.get_height()*0.25

    for c in barcode:
        if c:
            pygame.draw.rect(win, (0,0,0), [x, y, rnd_bar_w, height])

        x += bar_w

if __name__ == "__main__":
    import base

    b = base.Base(800, 500, "EAN-8 / EAN-13 barcode generator")

    #barcode = ean8([8,4,2,7,3,7,2])
    barcode = ean13([9,7,8,2,9,4,0,6,2,1,0,5])

    draw_barcode(barcode, b.w)

    b.main()
\end{minted}
\end{tcolorbox}

\chapter{QR-Code tables}
\label{app:qr_tabs}

\def\arraystretch{1.2}
\begin{table}[H]
  \centering
  \begin{tabu}{|[2pt]c|c|[2pt]c|c|[2pt]c|c|[2pt]}
    \tabucline[2pt]{-}
    Index & Char & Index & Char & Index & Char \\
    \hline
    0 & 0 & 15 & F & 30 & U \\
    \hline
    1 & 1 & 16 & G & 31 & V \\
    \hline
    2 & 2 & 17 & H & 32 & W \\
    \hline
    3 & 3 & 18 & I & 33 & X \\
    \hline
    4 & 4 & 19 & J & 34 & Y \\
    \hline
    5 & 5 & 20 & K & 35 & Z \\
    \hline
    6 & 6 & 21 & L & 36 & \emph{space} \\
    \hline
    7 & 7 & 22 & M & 37 & \$ \\
    \hline
    8 & 8 & 23 & N & 38 & \% \\
    \hline
    9 & 9 & 24 & O & 39 & * \\
    \hline
    10 & A & 25 & P & 40 & + \\
    \hline
    11 & B & 26 & Q & 41 & - \\
    \hline
    12 & C & 27 & R & 42 & . \\
    \hline
    13 & D & 28 & S & 43 & / \\
    \hline
    14 & E & 29 & T & 44 & : \\
    \tabucline[2pt]{-}
  \end{tabu}
  \caption{List of alphanumerical characters}
  \label{tab:qr_alphanum}
\end{table}
\def\arraystretch{1}

\input{appendices/qr_versions}

% Rotated headers
% https://tex.stackexchange.com/a/98439
\input{appendices/error_correction}

\input{appendices/alignment}