libtuning: Copy visualize_macbeth_chart from raspberry pi

Copy visualize_macbeth_chart from raspberry pi. It is copied verbatim and does not work in this state. Signed-off-by: Stefan Klug <stefan.klug@ideasonboard.com> Reviewed-by: Laurent Pinchart <laurent.pinchart@ideasonboard.com> Acked-by: Paul Elder <paul.elder@ideasonboard.com>
2024-06-10 15:56:22 +02:00 · 2024-06-10 15:56:22 +02:00 · ad930fa74b
commit ad930fa74b
parent 9af5948cac
1 changed files with 43 additions and 0 deletions
--- a/utils/tuning/libtuning/utils.py
+++ b/utils/tuning/libtuning/utils.py
@ -123,3 +123,46 @@ def load_images(input_dir: str, config: dict, load_nonlsc: bool, load_lsc: bool)
        return None

    return images
+
+
+
+"""
+Some code that will save virtual macbeth charts that show the difference between optimised matrices and non optimised matrices
+
+The function creates an image that is 1550 by 1050 pixels wide, and fills it with patches which are 200x200 pixels in size
+Each patch contains the ideal color, the color from the original matrix, and the color from the final matrix
+_________________
+|               |
+|  Ideal Color  |
+|_______________|
+|  Old  |  new  |
+| Color | Color |
+|_______|_______|
+
+Nice way of showing how the optimisation helps change the colors and the color matricies
+"""
+def visualise_macbeth_chart(macbeth_rgb, original_rgb, new_rgb, output_filename):
+    image = np.zeros((1050, 1550, 3), dtype=np.uint8)
+    colorindex = -1
+    for y in range(6):
+        for x in range(4):  # Creates 6 x 4 grid of macbeth chart
+            colorindex += 1
+            xlocation = 50 + 250 * x  # Means there is 50px of black gap between each square, more like the real macbeth chart.
+            ylocation = 50 + 250 * y
+            for g in range(200):
+                for i in range(100):
+                    image[xlocation + i, ylocation + g] = macbeth_rgb[colorindex]
+            xlocation = 150 + 250 * x
+            ylocation = 50 + 250 * y
+            for i in range(100):
+                for g in range(100):
+                    image[xlocation + i, ylocation + g] = original_rgb[colorindex]  # Smaller squares below to compare the old colors with the new ones
+            xlocation = 150 + 250 * x
+            ylocation = 150 + 250 * y
+            for i in range(100):
+                for g in range(100):
+                    image[xlocation + i, ylocation + g] = new_rgb[colorindex]
+
+    img = Image.fromarray(image, 'RGB')
+    img.save(str(output_filename) + 'Generated Macbeth Chart.png')
+