Perform comparison in different color spaces. Move common utilty functions to common lib

t
Improve color conversion method. Allow for comparison_comparison to test all color spaces
2023-10-24 16:46:08 -04:00 · 2023-10-24 16:45:22 -04:00 · 2023-10-24 16:14:56 -04:00
4 changed files with 79 additions and 28 deletions
--- a/py/common.py
+++ b/py/common.py
@ -0,0 +1,53 @@
 import cv2
 import numpy as np
 def convert_color (color, color_space_a, color_space_b) :
 	pixel = np.zeros([1, 1, 3], dtype=np.uint8)
 	if color_space_a == 'RGB' :
 		pixel = cv2.cvtColor(pixel, cv2.COLOR_BGR2RGB)
 	elif color_space_a == 'LAB' :
 		pixel = cv2.cvtColor(pixel, cv2.COLOR_BGR2LAB)
 	elif color_space_a == 'HSV' :
 		pixel = cv2.cvtColor(pixel, cv2.COLOR_BGR2HSV)
 	#default is BGR
 	pixel[:] = color
 	if color_space_a == 'RGB' and color_space_b == 'BGR' :
 		b = cv2.COLOR_RGB2BGR
 	elif color_space_a == 'BGR' and color_space_b == 'RGB' :
 		b = cv2.COLOR_BGR2RGB
 	elif color_space_a == 'RGB' and color_space_b == 'LAB' :
 		b = cv2.COLOR_RGB2LAB
 	elif color_space_a == 'LAB' and color_space_b == 'RGB' :
 		b = cv2.COLOR_LAB2RGB
 	elif color_space_a == 'BGR' and color_space_b == 'LAB' :
 		b = cv2.COLOR_BGR2LAB
 	elif color_space_a == 'LAB' and color_space_b == 'BGR' :
 		b = cv2.COLOR_LAB2BGR
 	elif color_space_a == 'HSV' and color_space_b == 'LAB' :
 		b = cv2.COLOR_HSV2LAB
 	elif color_space_a == 'LAB' and color_space_b == 'HSV' :
 		b = cv2.COLOR_LAB2HSV
 	elif color_space_a == 'RGB' and color_space_b == 'HSV' :
 		b = cv2.COLOR_RGB2HSV
 	elif color_space_a == 'HSV' and color_space_b == 'RGB' :
 		b = cv2.COLOR_HSV2RGB
 	elif color_space_a == 'BGR' and color_space_b == 'HSV' :
 		b = cv2.COLOR_BGR2HSV
 	elif color_space_a == 'HSV' and color_space_b == 'BGR' :
 		b = cv2.COLOR_HSV2BGR
 	cvt = cv2.cvtColor(pixel, b)
 	return cvt[0, 0]
 def closest_color (colors, color):
 	colors = np.array(colors)
 	color = np.array(color)
 	distances = np.sqrt(np.sum((colors - color) ** 2, axis=1))
 	index_of_smallest = np.where(distances == np.amin(distances))
 	smallest_distance = colors[index_of_smallest]
 	return smallest_distance
 def create_colored_image (width, height, bgr_color):
 	image = np.zeros((height, width, 3), np.uint8)
 	image[:] = bgr_color
 	return image
--- a/py/comparison_comparison.py
+++ b/py/comparison_comparison.py
@ -1,22 +1,32 @@
 import cv2
 import numpy as np
 from pallete_schema import PalleteSchema
 from common import convert_color, closest_color, create_colored_image
 class ComparisonComparison:
 	def __init__ (self) :
-		c = [0, 0, 255]
+		red = [0, 10, 200]
-		print(c)
+		green = [5, 250, 5]
-		cc = self.convert_color(c, cv2.COLOR_BGR2RGB, cv2.COLOR_RGB2LAB)
+		blue = [240, 0, 20]
-		print(cc)
+		comp_colors = [red, green, blue]
-		print(self.convert_color(cc, cv2.COLOR_BGR2LAB, cv2.COLOR_LAB2RGB))
+		pallete = PalleteSchema('./palletes/printed_pallete.json')
 		colors = self.get_colors(pallete.colors)
 		for cc in comp_colors :
 			ccbgr = convert_color(cc, 'RGB', 'HSV')
 			closest = closest_color(colors, ccbgr)
 			ccbgr = convert_color(cc, 'RGB', 'BGR')
 			#print(f'{convert_color(closest,"BGR","RGB")} for {convert_color(ccbgr,"BGR","RGB")}')
 			original = create_colored_image(100, 100, convert_color(closest, 'HSV', 'BGR'))
 			chosen = create_colored_image(100, 100, ccbgr)
 			combined = np.hstack([original, chosen])
 			cv2.imshow("image", combined)
 			cv2.waitKey(0)
-
+	def get_colors (self, pallete) :
-	def convert_color (self, color, color_space_a, color_space_b) :
+		colors = []
-		pixel = np.zeros([1, 1, 3], dtype=np.uint8)
+		for color in pallete :
-		pixel = cv2.cvtColor(pixel, color_space_a)
+			colors.append(convert_color(color['color'], 'BGR', 'HSV'))
-		pixel[:] = color
+		return colors
 		cvt = cv2.cvtColor(pixel, color_space_b)
 		return cvt[0, 0]
 if __name__ == "__main__":
 	ComparisonComparison()
--- a/py/pallete_schema.py
+++ b/py/pallete_schema.py
@ -21,8 +21,10 @@ class PalleteSchema :
 	def __init__ (self, file = None, obj = None):
 		if file is not None and obj is None:
 			self.parse_file(file)
-		else :
+		elif file is not None and obj is not None :
 			self.write(file, obj)
 		else :
 			print('Not sure what you\'re trying to do here')
 	def parse_file (self, file) :
 		with open(file) as f :
--- a/py/posterize.py
+++ b/py/posterize.py
@ -2,6 +2,7 @@ from sklearn.cluster import MiniBatchKMeans
 import numpy as np
 import argparse
 import cv2
 from common import convert_color, closest_color
 class Posterize:
 	"""Posterize an image and then find nearest colors to use"""
@ -56,18 +57,3 @@ class Posterize:
 	def extract_color_mask (self, image, color):
 		mask = cv2.inRange(image, color, color)
 		return cv2.bitwise_not(mask)
 	def convert_color (self, color, color_space_a, color_space_b) :
 		pixel = np.zeros([1, 1, 3], dtype=np.uint8)
 		pixel = cv2.cvtColor(pixel, color_space_a)
 		pixel[:] = color
 		cvt = cv2.cvtColor(pixel, color_space_b)
 		return cvt[0, 0]
 	def closest(self, colors, color):
 		colors = np.array(colors)
 		color = np.array(color)
 		distances = np.sqrt(np.sum((colors - color) ** 2, axis=1))
 		index_of_smallest = np.where(distances == np.amin(distances))
 		smallest_distance = colors[index_of_smallest]
 		return smallest_distance
Author	SHA1	Message	Date
mmcwilliams	1d23aac7d1	Perform comparison in different color spaces. Move common utilty functions to common lib	2023-10-24 16:46:08 -04:00
mmcwilliams	d579e83762	t	2023-10-24 16:45:22 -04:00
mmcwilliams	f0de99a148	Improve color conversion method. Allow for comparison_comparison to test all color spaces	2023-10-24 16:14:56 -04:00