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- # Importing the dependencies
- import cv2
- import numpy as np
-
- # Defining variables to store coordinates where the second image has to be placed
- positions = []
- positions2 = []
- count = 0
-
- # Mouse callback function
- def draw_circle(event, x, y, flags, param):
- global positions, count
- # If event is Left Button Click then store the coordinate in the lists, positions and positions2
- if event == cv2.EVENT_LBUTTONUP:
- cv2.circle(room_draw, (x, y), 2, (255, 0, 0), -1)
- positions.append([x, y])
- if count != 3:
- positions2.append([x, y])
- elif count == 3:
- positions2.insert(2, [x, y])
- count += 1
-
-
- # Reading the two images and storing it in variables room and dp
- room = cv2.imread("./data/room2.jpg")
- room_draw = room.copy()
-
- dp = cv2.imread("./data/carpet.jpeg")
-
- # Defing a window named 'image' and set the callback to define the destination points
- cv2.namedWindow("image")
- cv2.setMouseCallback("image", draw_circle)
-
- while True:
- cv2.imshow("image", room_draw)
- k = cv2.waitKey(20) & 0xFF
- if k == 27 or count > 3:
- break
-
- cv2.destroyAllWindows()
-
- height, width = room.shape[:2]
- h1, w1 = dp.shape[:2]
-
- pts1 = np.float32([[0, 0], [w1, 0], [0, h1], [w1, h1]])
- pts2 = np.float32(positions)
-
- # Calculate homography
- h, mask = cv2.findHomography(pts1, pts2, cv2.RANSAC, 5.0)
-
- height, width, channels = room.shape
- im1Reg = cv2.warpPerspective(dp, h, (width, height))
-
- # Masking and blending
- mask2 = np.zeros(room.shape, dtype=np.uint8)
-
- roi_corners2 = np.int32(positions2)
-
- channel_count2 = room.shape[2]
- ignore_mask_color2 = (255,) * channel_count2
-
- cv2.fillConvexPoly(mask2, roi_corners2, ignore_mask_color2)
-
- mask2 = cv2.bitwise_not(mask2)
- masked_image2 = cv2.bitwise_and(room, mask2)
-
- # Using Bitwise or to merge the two images
- final = cv2.bitwise_or(im1Reg, masked_image2)
-
- # Show results and write to file
- cv2.imshow("Final", final)
- cv2.imwrite("Final2.jpg", final)
-
- cv2.waitKey(0) & 0xFF
- cv2.destroyAllWindows()
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