From 4373dab299acbd8b4dd2c85a0301a6012c7c27f2 Mon Sep 17 00:00:00 2001 From: justuser Date: Sat, 25 Nov 2023 16:40:16 +0300 Subject: [PATCH] Delete 'im_convert.py' --- im_convert.py | 132 -------------------------------------------------- 1 file changed, 132 deletions(-) delete mode 100644 im_convert.py diff --git a/im_convert.py b/im_convert.py deleted file mode 100644 index be6b174..0000000 --- a/im_convert.py +++ /dev/null @@ -1,132 +0,0 @@ -from PIL import Image -#from tkinter import Tk, Button, Canvas, PhotoImage - -COLORS = { - (255, 255, 255): 'white', - - (255, 0, 0): 'light_red', - (192, 0, 0): 'red', - (128, 0, 0): 'dark_red', - - (80, 25, 40): 'maroon', - (25, 5, 5): 'dark_maroon', - (115, 40, 60): 'light_maroon', - - (165, 90, 25): 'brown', - (210, 150, 95): 'light_brown', - (50, 40, 10): 'dark_brown', - - (250, 245, 200): 'sand', - (255, 128, 0): 'orange', - - (255, 255, 0): 'yellow', - (255, 215, 0): 'light_gold', - (185, 135, 10): 'dark_gold', - (220, 165, 30): 'gold', - - (0, 255, 0): 'light_lime', - (0, 128, 0): 'lime', - (128, 255, 0): 'salad', - (0, 255, 128): 'mint', - (0, 128, 0): 'green', - - (0, 255, 255): 'cyan', - (0, 128, 255): 'light_blue', - (0, 0, 255): 'blue', - (0, 65, 90): 'dark_blue', - - (128, 0, 128): 'dark_purple', - (128, 0, 255): 'purple', - (255, 0, 128): 'dark_pink', - (255, 0, 255): 'pink', - - (192, 192, 192): 'light_gray', - (128, 128, 128): 'gray', - (64, 64, 64): 'dark_gray', - (0, 0, 0): 'black' -} - -#CONVERT for main.py -#from collections import OrderedDict -#new_colors = dict((value, key) for key, value in COLORS.items()) -#print(new_colors) -#exit(0) - - -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] - -# 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 - -new_img.show() - - -# смещение!!!!!!!!!!!!!!!!!!!!! -#------------------------------------------------- -move = [0, 0] -m0 = input("Enter move on X: ") -if m0 == "": - m0 = 0 -m1 = input("Enter move on Y: ") -if m1 == "": - m1 = 0 -move = [int(m0), int(m1)] -#------------------------------------------------- - - -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() - - -from bot import * -from remove_back import * - -print("\nOptimize image?") -a = input("(Y/N) : ") -if a.lower() == 'y': - res_list = optimize(res_list) - -print("\nCheck image.") -print("Upload image?") -a = input("(Y/N) : ") -if a.lower() == 'y': - draw(res_list) -