aholmes/random_bitmap.py

## random_bitmap.py
from math import trunc
from struct import pack
from typing import List
from random import random


def main():
    # some hard-coded image attributes
    # the width and height are 50 pixels
    img_width = 50
    img_height = img_width
    # the bitmap will be a 24-bit color image https://en.wikipedia.org/wiki/Color_depth#True_color_(24-bit)
    img_colordepth = 24

    # some constants derived from the formula found here https://en.wikipedia.org/wiki/BMP_file_format#Pixel_storage
    # row_bytes is the number of bytes it takes to store all img_width pixels @ img_colordepth-bit color (50 pixels @ 24-bit)
    # you could also do (width * depth / 8) because (width * depth) is the number of _bits_ required, and there are 8 bits in a byte
    row_bytes = trunc(img_width * img_colordepth / 32 * 4)
    # pad_bytes is the remainder of bytes to fill in for each "row"
    # this is non-zero when the number of bytes in row_bytes is not a multiple of 4
    # From wiki: "Padding bytes (not necessarily 0) must be appended to the end of the rows in
    #  order to bring up the length of the rows to a multiple of four bytes."
    pad_bytes = (4 - row_bytes) % 4

    # other known constants
    # the bitmap file header is always 14 bytes
    file_header_size = 14
    # the type of bitmap we're drawing - BITMAPINFOHEADER - is 40 bytes long,
    # without any "extra bit masks" used
    dib_header_size = 40

    header = b""
    # bitmap file header - 14 bytes https://en.wikipedia.org/wiki/BMP_file_format#Bitmap_file_header
    header += pack("<B", ord("B"))  # literal 'B'   - 1 byte
    header += pack("<B", ord("M"))  # literal 'M'   - 1 byte
    header += pack("<L", 0)  # filesize = 0         - 4 bytes
    header += pack("<H", 0)  # application specific - 2 bytes
    header += pack("<H", 0)  # application specific - 2 bytes
    # After the file header and the DBI information header, this is the
    # number of bytes, from the start of the file, after which the bitmap
    # data can be found.
    # That means every byte after (file_header_size + dib_header_size)
    # contains pixel color data.
    header += pack(
        "<L", file_header_size + dib_header_size
    )  # image data address  - 4 bytes

    # DIB information header https://en.wikipedia.org/wiki/BMP_file_format#DIB_header_(bitmap_information_header)
    # this is a BITMAPINFOHEADER
    header += pack("<L", dib_header_size)  # size of the header - 4 bytes
    header += pack("<L", img_width)  # width in pixels          - 4 bytes
    header += pack("<L", img_height)  # height in pixels        - 4 bytes
    header += pack("<H", 1)  # color planes                     - 2 bytes
    header += pack("<H", img_colordepth)  # color depth         - 2 bytes
    header += pack("<L", 0)  # compression (none)               - 4 bytes
    header += pack("<L", 0)  # image size                       - 4 bytes
    header += pack("<L", 0)  # horizontal resolution            - 4 bytes
    header += pack("<L", 0)  # vertical resolution              - 4 bytes
    header += pack("<L", 0)  # palette                          - 4 bytes
    header += pack("<L", 0)  # important colors                 - 4 bytes

    # every `width` pixels is a new row. each pixel is a "column" in that row.
    # https://en.wikipedia.org/wiki/BMP_file_format#Pixel_storage
    # This looks like:
    # [
    #   [
    #     [0,0,0], [0,0,0], [0,0,0], ... # there are img_width (50) of these pixel color arrays here
    #   ],
    #   [
    #     [0,0,0], [0,0,0], [0,0,0], ...
    #   ], # there are img_height (50) of these arrays
    # ]
    img_pixel_array: List[List[List[int]]] = [
        [get_color() for _ in range(img_width)] for _ in range(img_height)
    ]
    # `pixels` is a long sequence of 32-bit DWORDs representing the RGB of each pixel.
    # Each "row" is padded with `pad_bytes` to ensure subsequent "rows" are read correctly
    # by whatever is displaying the image, which uses the image height/width defined above
    # to correctly read the pixels out of the file.
    #
    # In essence, if we were drawing a 1x1 black bitmap (keeping in mind every pixel is 32 bits (4 bytes)),
    # we would write data like this to that file.
    # Note: these are the integer values - the spaces are for visual purposes only, and are not part of the bitmap data.
    # "|" separates each pixel - again just for visual purposes.
    # I've denoted every 4 bytes with `^----^` - notice how the pixel values can span across multiple 32-bit DWORDs?
    # That is why the data is padded.
    #  0 0 0 | 0
    #  ^-------^
    # or 1x1 all white:
    #  255 255 255 | 0
    #  ^-------------^
    # or 2x2 all black :
    #  0 0 0 | 0 0 0 | 0 0
    #  ^-------^ ^-------^
    # or 3x3 all black:
    #  0 0 0 | 0 0 0 | 0 0 0 | 0 0 0
    #  ^-------^ ^-------^ ^-------^
    pixels = b""
    for row in img_pixel_array:
        for pixel in row:
            red = pixel[0]
            green = pixel[1]
            blue = pixel[2]
            # order is blue, green, red because wiki says so
            # "In most cases, each entry in the color table occupies 4 bytes, in the order blue, green, red"
            pixels += pack("<BBB", blue, green, red)
        for _ in range(pad_bytes):
            pixels += pack("<B", 0)

    with open("test.bmp", "wb") as file:
        file.write(header + pixels)


def get_color():
    black_or_white = round(random()) * 255
    return [black_or_white, black_or_white, black_or_white]


if __name__ == "__main__":
    main()
	from math import trunc
	from struct import pack
	from typing import List
	from random import random


	def main():
	# some hard-coded image attributes
	# the width and height are 50 pixels
	img_width = 50
	img_height = img_width
	# the bitmap will be a 24-bit color image https://en.wikipedia.org/wiki/Color_depth#True_color_(24-bit)
	img_colordepth = 24

	# some constants derived from the formula found here https://en.wikipedia.org/wiki/BMP_file_format#Pixel_storage
	# row_bytes is the number of bytes it takes to store all img_width pixels @ img_colordepth-bit color (50 pixels @ 24-bit)
	# you could also do (width * depth / 8) because (width * depth) is the number of _bits_ required, and there are 8 bits in a byte
	row_bytes = trunc(img_width * img_colordepth / 32 * 4)
	# pad_bytes is the remainder of bytes to fill in for each "row"
	# this is non-zero when the number of bytes in row_bytes is not a multiple of 4
	# From wiki: "Padding bytes (not necessarily 0) must be appended to the end of the rows in
	# order to bring up the length of the rows to a multiple of four bytes."
	pad_bytes = (4 - row_bytes) % 4

	# other known constants
	# the bitmap file header is always 14 bytes
	file_header_size = 14
	# the type of bitmap we're drawing - BITMAPINFOHEADER - is 40 bytes long,
	# without any "extra bit masks" used
	dib_header_size = 40

	header = b""
	# bitmap file header - 14 bytes https://en.wikipedia.org/wiki/BMP_file_format#Bitmap_file_header
	header += pack("<B", ord("B")) # literal 'B' - 1 byte
	header += pack("<B", ord("M")) # literal 'M' - 1 byte
	header += pack("<L", 0) # filesize = 0 - 4 bytes
	header += pack("<H", 0) # application specific - 2 bytes
	header += pack("<H", 0) # application specific - 2 bytes
	# After the file header and the DBI information header, this is the
	# number of bytes, from the start of the file, after which the bitmap
	# data can be found.
	# That means every byte after (file_header_size + dib_header_size)
	# contains pixel color data.
	header += pack(
	"<L", file_header_size + dib_header_size
	) # image data address - 4 bytes

	# DIB information header https://en.wikipedia.org/wiki/BMP_file_format#DIB_header_(bitmap_information_header)
	# this is a BITMAPINFOHEADER
	header += pack("<L", dib_header_size) # size of the header - 4 bytes
	header += pack("<L", img_width) # width in pixels - 4 bytes
	header += pack("<L", img_height) # height in pixels - 4 bytes
	header += pack("<H", 1) # color planes - 2 bytes
	header += pack("<H", img_colordepth) # color depth - 2 bytes
	header += pack("<L", 0) # compression (none) - 4 bytes
	header += pack("<L", 0) # image size - 4 bytes
	header += pack("<L", 0) # horizontal resolution - 4 bytes
	header += pack("<L", 0) # vertical resolution - 4 bytes
	header += pack("<L", 0) # palette - 4 bytes
	header += pack("<L", 0) # important colors - 4 bytes

	# every `width` pixels is a new row. each pixel is a "column" in that row.
	# https://en.wikipedia.org/wiki/BMP_file_format#Pixel_storage
	# This looks like:
	# [
	# [
	# [0,0,0], [0,0,0], [0,0,0], ... # there are img_width (50) of these pixel color arrays here
	# ],
	# [
	# [0,0,0], [0,0,0], [0,0,0], ...
	# ], # there are img_height (50) of these arrays
	# ]
	img_pixel_array: List[List[List[int]]] = [
	[get_color() for _ in range(img_width)] for _ in range(img_height)
	]
	# `pixels` is a long sequence of 32-bit DWORDs representing the RGB of each pixel.
	# Each "row" is padded with `pad_bytes` to ensure subsequent "rows" are read correctly
	# by whatever is displaying the image, which uses the image height/width defined above
	# to correctly read the pixels out of the file.
	#
	# In essence, if we were drawing a 1x1 black bitmap (keeping in mind every pixel is 32 bits (4 bytes)),
	# we would write data like this to that file.
	# Note: these are the integer values - the spaces are for visual purposes only, and are not part of the bitmap data.
	# "\|" separates each pixel - again just for visual purposes.
	# I've denoted every 4 bytes with `^----^` - notice how the pixel values can span across multiple 32-bit DWORDs?
	# That is why the data is padded.
	# 0 0 0 \| 0
	# ^-------^
	# or 1x1 all white:
	# 255 255 255 \| 0
	# ^-------------^
	# or 2x2 all black :
	# 0 0 0 \| 0 0 0 \| 0 0
	# ^-------^ ^-------^
	# or 3x3 all black:
	# 0 0 0 \| 0 0 0 \| 0 0 0 \| 0 0 0
	# ^-------^ ^-------^ ^-------^
	pixels = b""
	for row in img_pixel_array:
	for pixel in row:
	red = pixel[0]
	green = pixel[1]
	blue = pixel[2]
	# order is blue, green, red because wiki says so
	# "In most cases, each entry in the color table occupies 4 bytes, in the order blue, green, red"
	pixels += pack("<BBB", blue, green, red)
	for _ in range(pad_bytes):
	pixels += pack("<B", 0)

	with open("test.bmp", "wb") as file:
	file.write(header + pixels)


	def get_color():
	black_or_white = round(random()) * 255
	return [black_or_white, black_or_white, black_or_white]


	if __name__ == "__main__":
	main()