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pxl_oboard/im_convert.py

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from PIL import Image
#from tkinter import Tk, Button, Canvas, PhotoImage
COLORS = {
(255, 255, 255): 'white',
(0, 0, 255): 'blue',
(255, 0, 0): 'red',
(0, 255, 0): 'green',
(0, 0, 0): 'black'
}
img = Image.open('image.png')
pixels = img.load()
result_list = []
for x in range(img.size[0]):
for y in range(img.size[1]):
# получаем RGB значение текущего пикселя
pixel = pixels[x, y]
# находим ближайший цвет из словаря COLORS
distance = float('inf')
nearest_color = None
for rgb, color in COLORS.items():
current_distance = ((pixel[0]-rgb[0])**2 + (pixel[1]-rgb[1])**2 + (pixel[2]-rgb[2])**2)**0.5
if current_distance < distance:
distance = current_distance
nearest_color = color
# добавляем итоговое значение в список
result_list.append([x, y, nearest_color])
# создаем копию списка для инверсии по оси X
inverted_list = result_list.copy()
for i in range(len(inverted_list)):
x, y, color_name = inverted_list[i]
# изменяем значение x-координаты для инвертирования по оси X
inverted_y = img.size[1] - y - 1
inverted_list[i] = [x,inverted_y , color_name]
# смещение!!!!!!!!!!!!!!!!!!!!!
#-------------------------------------------------
move = [0, 0]
#-------------------------------------------------
res_list = result_list.copy()
for i in range(len(inverted_list)):
x, y, color_name = inverted_list[i]
move_x = x + move[0]
move_y = y + move[1]
res_list[i] = [move_x, move_y, color_name]
f = open("out.txt",'w')
f.write(str(res_list))
f.close()
# создаем новое изображение и заполняем его пикселями из списка
new_img = Image.new('RGB', (img.size[0], img.size[1]), color='white')
new_pixels = new_img.load()
for x, y, color in result_list:
rgb = [key for key, value in COLORS.items() if value == color][0]
new_pixels[x, y] = rgb
# инвертируем изображение по оси X
#new_img = new_img.transpose(method=Image.FLIP_LEFT_RIGHT)
# поворачиваем изображение на 90 градусов влево
#new_img = new_img.transpose(method=Image.ROTATE_90)
new_img.show()
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