2023-10-21 12:26:58 +00:00
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from sklearn.cluster import MiniBatchKMeans
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import numpy as np
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import argparse
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import cv2
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2023-11-30 04:08:23 +00:00
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from common import convert_color, closest_color_weighted_euclidean, closest_color_euclidean, create_colored_image, remove_from_list, list_match, to_luma, convertScale
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2023-11-25 14:40:13 +00:00
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import os
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2023-11-29 06:34:47 +00:00
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import subprocess
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2023-11-30 04:08:23 +00:00
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from functools import cmp_to_key
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def sort_pallete (a, b):
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A = to_luma(a, 'BGR')
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B = to_luma(b, 'BGR')
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if A > B :
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return 1
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if B < A :
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return -1
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return 0
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2023-10-21 12:26:58 +00:00
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class Posterize:
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"""Posterize an image and then find nearest colors to use"""
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colors = []
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colors_dict = {}
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original_colors = []
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layers = []
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previews = []
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svgs = []
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headless = False
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jobs = 1
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pallete = None
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pallete_space = 'BGR'
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comparison_space = 'BGR'
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image = None
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h = 0
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w = 0
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n_colors = 3
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max_particles = 17000
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conf = os.path.abspath('./conf/base.conf')
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stipple_gen = os.path.abspath('../../stipple_gen')
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white = [255, 255, 255]
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output = None
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def __init__ (self, image, pallete, n_colors, output, headless, jobs) :
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self.image = cv2.imread(image)
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(self.h, self.w) = self.image.shape[:2]
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self.pallete = pallete
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self.n_colors = n_colors + 1
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self.output = output
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self.headless = headless
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self.jobs = jobs
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if not os.path.exists(self.output) :
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print(f'Output directory {self.output} does not exist, creating...')
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os.makedirs(self.output)
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self.flatten_pallete()
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self.posterize()
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self.determine_colors()
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self.stipple()
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self.preview()
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def posterize (self):
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lab = cv2.cvtColor(self.image, cv2.COLOR_BGR2LAB)
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feature = lab.reshape((self.h * self.w, 3))
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clusters = MiniBatchKMeans(n_clusters = self.n_colors, n_init = 'auto')
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labels = clusters.fit_predict(feature)
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quant = clusters.cluster_centers_.astype('uint8')[labels]
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rquant = quant.reshape((self.h, self.w, 3))
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rfeature = feature.reshape((self.h, self.w, 3))
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bgrquant = cv2.cvtColor(rquant, cv2.COLOR_LAB2BGR)
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#bgrfeature = cv2.cvtColor(rfeature, cv2.COLOR_LAB2BGR)
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self.image = bgrquant
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self.show(bgrquant)
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def determine_colors (self):
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reshaped = self.image.reshape(-1, self.image.shape[2])
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self.original_colors = np.unique(reshaped, axis=0)
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white, white_dist = closest_color_weighted_euclidean(self.original_colors, [255, 255, 255], 'BGR')
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blank = create_colored_image(self.w, self.h, [255, 255, 255])
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2023-10-25 01:01:09 +00:00
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composite = create_colored_image(self.w, self.h, [255, 255, 255])
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mask = self.extract_color_mask(self.image, white)
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layer_name = f'WHITE.png'
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output_layer = os.path.join(self.output, layer_name)
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cv2.imwrite(output_layer, mask)
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self.layers.append({
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'layer' : output_layer,
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'color' : white,
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'space' : self.pallete_space
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})
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composite_name = f'posterized.png'
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composite_path = os.path.join(self.output, composite_name)
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cv2.imwrite(composite_path, composite)
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self.show(composite)
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def extract_color_mask (self, image, color):
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mask = cv2.inRange(image, color, color)
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return cv2.bitwise_not(mask)
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def flatten_pallete (self) :
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for color in self.pallete.colors:
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self.colors.append(color['color'])
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self.colors_dict[f"{color['color'][0]},{color['color'][1]},{color['color'][2]}"] = color['name']
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self.pallete_space = color['space']
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#self.colors = sorted(self.colors, key=cmp_to_key(sort_pallete))
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#for color in self.colors :
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# print(to_luma(color, self.pallete_space))
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#quit()
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def match_color_name (self, key) :
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return self.colors_dict[f'{key[0]},{key[1]},{key[2]}']
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def stipple (self) :
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sanity_check = 0
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for layer in self.layers :
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if 'WHITE.png' in layer['layer'] :
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continue
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l = cv2.imread(layer['layer'], 0)
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(h, w) = l.shape[:2]
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total = h * w
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black = total - cv2.countNonZero(l)
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ratio = black/total
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max_particles = round(ratio * self.max_particles)
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input_image = os.path.abspath(layer['layer'])
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2023-11-29 23:33:02 +00:00
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dir_name, file_name = os.path.split(input_image)
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file_part, ext = os.path.splitext(file_name)
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output_image = os.path.join(dir_name, f'{file_part}_preview.png')
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output_svg = os.path.join(dir_name, f'{file_part}.svg')
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cmd = [
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'bash',
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'stipple_gen.sh',
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'--inputImage', input_image,
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'--outputImage', output_image,
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'--outputSVG', output_svg,
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'--config', self.conf,
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'--maxParticles', str(max_particles)
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]
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print(cmd)
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subprocess.call(cmd, cwd = self.stipple_gen)
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self.svgs.append(output_svg)
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self.previews.append({
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'layer' : output_image,
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'color' : layer['color']
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})
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def preview (self) :
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composite = create_colored_image(self.w, self.h, [255, 255, 255])
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for layer in self.previews :
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l = cv2.imread(layer['layer'], 0)
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mask = cv2.bitwise_not(l)
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composite[mask > 0] = np.array(convert_color(layer['color'], self.pallete_space, 'BGR'))
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composite_name = f'preview.png'
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composite_path = os.path.join(self.output, composite_name)
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cv2.imwrite(composite_path, composite)
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self.show(composite)
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for svg in self.svgs :
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cmd = [ 'svgopt', svg, svg]
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print(cmd)
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subprocess.call(cmd)
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def show (self, mat) :
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if not self.headless :
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cv2.imshow('image', mat)
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cv2.waitKey(0)
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cv2.destroyAllWindows()
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