This commit is contained in:
Arne van Iterson 2023-09-25 22:08:09 +02:00
commit 4331f3b090
2 changed files with 157 additions and 132 deletions

View File

@ -3,14 +3,11 @@ Script to extract 10cm x 10cm images from the template
Accounts for (minor) rotation.
command:
python template.py input_folder output_folder
volgorde maakt uit! heb niet die fancy library gebruikt
python template.py input_directory
known bugs:
- plaatjes worden soms de verkeerde kant op gedraaid, ze staan wel recht
maar 90 graden gedraaid
- plaatjes zijn niet persé exact 10x10 cm als perspectief niet precies goed is
- gekke crash bij herextractie van datapunten, zie todo
Auteurs:
Tom Selier
@ -24,7 +21,7 @@ import os
## Parameters ##
# [%] Schaal output in percentages
SCHAAL = 25
SCHAAL = 100
# [mm] 120 op calib a4, 180 op template
@ -38,13 +35,13 @@ OFFSET = 20
# Toon plaatjes (forceert pauze)
PLAATJES = True
PLAATJES = False
# Wacht na elke plaatje op toets
PAUZE = False
# Sla plaatjes op
SAVE = False
SAVE = True
# extra info
VERBOSE = True
@ -82,30 +79,44 @@ def findMin(array, index):
min_val = element[index]
return min_val
input_folder = sys.argv[1]
output_folder = sys.argv[2]
input_directory = sys.argv[1]
if(not os.path.isdir(input_folder)):
print("Input folder not found")
if(not os.path.isdir(input_directory)):
print(input_directory)
print("Input directory not found")
exit()
if(not os.path.isdir(output_folder)):
print("Output folder not found")
exit()
### ARUCO PARAMETERS ###
detector_params = cv2.aruco.DetectorParameters()
detector_params.adaptiveThreshWinSizeMax = 150 # Takes longer, but better chance of finding markers
dictionary = cv2.aruco.getPredefinedDictionary(cv2.aruco.DICT_ARUCO_ORIGINAL)
detector = cv2.aruco.ArucoDetector(dictionary, detector_params)
### IMAGE CONVERSIE ###
for file in os.listdir(input_folder):
for folder in os.listdir(input_directory):
if folder.endswith('.py'):
print("Skipping", folder)
continue
if folder.endswith('.jpg'):
continue
if SAVE:
path = os.path.join(input_directory, folder)
if (path).endswith("_out"):
continue
out_folder = path + "_out"
if (os.path.exists(out_folder) == False):
if VERBOSE:
print("Created folder: " + out_folder)
os.mkdir(out_folder)
for file in os.listdir(os.path.join(input_directory, folder)):
## Laad plaatjes in kleur ##
filename = input_folder + '/' + file
out_filename = output_folder + '/' + file
filename = input_directory + '/' + folder + '/' + file
img = cv2.imread(filename, 1)
assert img is not None, "Image path is wrong " + filename
if VERBOSE:
print(file)
@ -113,7 +124,10 @@ for file in os.listdir(input_folder):
(h, w) = img.shape[:2]
x_scale = int(w/100*SCHAAL)
y_scale = int(h/100*SCHAAL)
if SCHAAL != 100:
small_img = cv2.resize(img, (x_scale, y_scale))
else:
small_img = img
(h_small, w_small) = small_img.shape[:2]
if VERBOSE:
print("Van %dx%dpx naar %dx%dpx geschaald"%(h,w,h_small,w_small))
@ -124,7 +138,16 @@ for file in os.listdir(input_folder):
small_img,
corners,
ids)
assert len(ids) == 4, "Not enough markers found in " + str(file)
if ids is None:
print("Skipping: ", filename)
print("=============================================")
continue
if len(ids) != 4:
print("Skipping: ", filename)
print("=============================================")
continue
if VERBOSE:
print("%d markers gedetecteerd" %len(ids))
@ -138,7 +161,7 @@ for file in os.listdir(input_folder):
cv2.circle(
new_image,
(x[i], y[i]),
radius=3,
radius=5,
color=(0, 254, 254),
thickness=-1)
i += 1
@ -151,7 +174,7 @@ for file in os.listdir(input_folder):
## Draai de plaatjes recht ##
x0 = x[np.where(ids == 0)[0][0]]
x1 = x[np.where(ids == 1)[0][0]]
x1 = x[np.where(ids == 1)[0][0]] # TODO: Fix whatevers happening here
x_dif = x0-x1
y0 = y[np.where(ids == 0)[0][0]]
@ -211,7 +234,9 @@ for file in os.listdir(input_folder):
cv2.imshow('window', warp_img)
cv2.imshow('cropped', crop_img)
if SAVE:
cv2.imwrite(out_filename, crop_img)
out_path = out_folder + "/" + file
print("Saving to:", out_path)
cv2.imwrite(out_path, crop_img)
if PAUZE or PLAATJES:
cv2.waitKey(0)
if VERBOSE:

View File

@ -262,6 +262,7 @@ class MainApp:
# Canny edge
img_canny = cv2.Canny(image=img_blur,threshold1=ct1,threshold2=ct2)
self.add_output(img_canny, "Canny Edge")
self.writeStats(img, ('B', 'G', 'R'), 0, 0)
# BGR
self.add_output(img[:, :, 0], "BGR B")
@ -270,7 +271,6 @@ class MainApp:
if img is not None:
self.drawHist(img, ('B', 'G', 'R'), 0, 0)
self.writeStats(img, ('B', 'G', 'R'), 0, 0)
# HSV
img_hsv = cv2.cvtColor(img, cv2.COLOR_BGR2HSV)