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@ -6,6 +6,7 @@ import argparse
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import imutils
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import cv2
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import math
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import time
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itemw = 0
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itemh = 0
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@ -44,6 +45,11 @@ def smaller(a, b):
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return a
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else:
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return b
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def near(a, b, close):
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if abs(a-b) < close:
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return True
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return False
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# construct the argument parse and parse the arguments
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ap = argparse.ArgumentParser()
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ap.add_argument("-i", "--image", required=True,
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@ -70,16 +76,13 @@ if args2.show:
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cv2.waitKey(0)
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gray = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
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gray = cv2.GaussianBlur(gray, (7, 7), 0)
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if args2.show:
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cv2.imshow("Item Sorter", gray)
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cv2.waitKey(0)
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# perform edge detection, then perform a dilation + erosion to
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# close gaps in between object edges
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edged = cv2.Canny(gray, 50, 100)
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edged = cv2.dilate(edged, None, iterations=1)
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edged = cv2.erode(edged, None, iterations=1)
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#edged = cv2.erode(edged, None, iterations=1)
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if args2.show:
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cv2.imshow("Item Sorter", edged)
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@ -131,14 +134,20 @@ for c in cnts:
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else:
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circular = True
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cv2.circle(orig,(int(x),int(y)),int(radius),(0,255,0),2)
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if pixelsPerMetric is None and circular is True:
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mask = np.zeros(gray.shape,np.uint8)
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cv2.drawContours(mask,[c],0,255,-1)
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#pixelpoints = np.transpose(np.nonzero(mask))
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mean_val = cv2.mean(orig,mask = mask)
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#print(str(mean_val))
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if pixelsPerMetric is None and circular is True and near(mean_val[0], 63, 30) is True and near(mean_val[1], 108, 30) is True and near(mean_val[2], 104, 30) is True:
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pixelsPerMetric = smaller(dA, dB) / args["width"]
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orig = image.copy()
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# loop over the contours individually
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for c in cnts:
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num += 1
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# if the contour is not sufficiently large, ignore it
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if cv2.contourArea(c) < 100 or pixelsPerMetric is None:
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@ -233,7 +242,7 @@ for c in cnts:
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#print(str(convexness) + " % fill")
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#if not cv2.isContourConvex(approx):
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#if cv2.matchShapes(hull, c, 1, 0.0) > 1:
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if defects.size > 5 and (convexness < 0.9 or boxiness < 0.75):
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if defects.size > 5 and (convexness < 0.9 and boxiness < 0.7):
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objtype = "Screw"
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iteml = larger(dimA, dimB)
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#print("Screw Length (RAW): " + str(iteml))
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@ -249,7 +258,7 @@ for c in cnts:
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iteml = (radius * 2 / pixelsPerMetric + itemw) / 2
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print(str(iteml))
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#print(str(iteml))
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# draw the object sizes on the image
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if args2.show:
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#cv2.putText(orig, "{:.5f}in".format(itemhr),
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@ -258,6 +267,10 @@ for c in cnts:
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cv2.putText(orig, str(objtype),
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(int(trbrX + 20), int(trbrY)), cv2.FONT_HERSHEY_SIMPLEX,
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0.65, (255, 255, 255), 2)
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if objtype == "Unknown":
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cv2.putText(orig, "{:.2f}in".format(itemw) + " x {:.2f}in".format(itemh), # print axle length
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(int(trbrX + 20), int(trbrY + 20)), cv2.FONT_HERSHEY_SIMPLEX,
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0.65, (255, 255, 255), 2)
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if objtype == "Screw":
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cv2.putText(orig, str(iteml) + "in thread", # print screw length
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(int(trbrX + 20), int(trbrY + 20)), cv2.FONT_HERSHEY_SIMPLEX,
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@ -272,5 +285,5 @@ for c in cnts:
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0.65, (255, 255, 255), 2)
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# show the output image
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cv2.imshow("Item Sorter", orig)
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cv2.waitKey(0)
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cv2.imshow("Item Sorter", orig)
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cv2.waitKey(0)
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Cole Deck
4 years ago
