| | |
|---|
| | | img_bg = cv2.resize(self.img_bg, (self.width, self.height)) |
|---|
| | | |
|---|
| | | for card in self.cards: |
|---|
| | | print(card.x, card.y, card.theta, card.scale) |
|---|
| | | card_x = int(card.x + 0.5) |
|---|
| | | card_y = int(card.y + 0.5) |
|---|
| | | print(card_x, card_y, card.theta, card.scale) |
|---|
| | | # Scale & rotate card image |
|---|
| | | img_card = cv2.resize(card.img, (int(len(card.img[0]) * card.scale), int(len(card.img) * card.scale))) |
|---|
| | | mask_scale = cv2.resize(card_mask, (int(len(card_mask[0]) * card.scale), int(len(card_mask) * card.scale))) |
|---|
| | | img_mask = cv2.bitwise_and(img_card, mask_scale) |
|---|
| | | img_rotate = imutils.rotate_bound(img_mask, card.theta / math.pi * 180) |
|---|
| | | print(len(img_rotate[0]), len(img_rotate)) |
|---|
| | | |
|---|
| | | # Calculate the position of the card image in relation to the background |
|---|
| | | # Crop the card image if it's out of boundary |
|---|
| | | card_w = len(img_rotate[0]) |
|---|
| | | card_h = len(img_rotate) |
|---|
| | | #card_crop_x1 = min(0, card_w // 2 - card.x) |
|---|
| | | #card_crop_x2 = min(card_w, card_w // 2 + len(img_bg[0]) - card.x) |
|---|
| | | #card_crop_y1 = min(0, card_h // 2 - card.y) |
|---|
| | | #card_crop_y2 = min(card_h, card_h // 2 + len(img_bg) - card.y) |
|---|
| | | card_crop_x1 = card_w // 2 - card.x |
|---|
| | | card_crop_x2 = card_w // 2 + len(img_bg[0]) - card.x |
|---|
| | | card_crop_y1 = card_h // 2 - card.y |
|---|
| | | card_crop_y2 = card_h // 2 + len(img_bg) - card.y |
|---|
| | | |
|---|
| | | img_card_crop = img_rotate[max(0, card_crop_y1):min(card_h, card_crop_y2), |
|---|
| | | max(0, card_crop_x1):min(card_w, card_crop_x2)] |
|---|
| | | #print(card_crop_x1, card_crop_x2, card_crop_y1, card_crop_y2) |
|---|
| | | print(len(img_card_crop[0]), len(img_card_crop)) |
|---|
| | | card_crop_x1 = max(0, card_w // 2 - card_x) |
|---|
| | | card_crop_x2 = min(card_w, card_w // 2 + len(img_bg[0]) - card_x) |
|---|
| | | card_crop_y1 = max(0, card_h // 2 - card_y) |
|---|
| | | card_crop_y2 = min(card_h, card_h // 2 + len(img_bg) - card_y) |
|---|
| | | img_card_crop = img_rotate[card_crop_y1:card_crop_y2, card_crop_x1:card_crop_x2] |
|---|
| | | |
|---|
| | | # Calculate the position of the corresponding area in the background |
|---|
| | | bg_crop_x1 = max(0, card.x - (card_w // 2)) |
|---|
| | | bg_crop_x2 = min(len(img_bg[0]), int(card.x + (card_w / 2) + 0.5)) |
|---|
| | | bg_crop_y1 = max(0, card.y - (card_h // 2)) |
|---|
| | | bg_crop_y2 = min(len(img_bg), int(card.y + (card_h / 2) + 0.5)) |
|---|
| | | bg_crop_x1 = max(0, card_x - (card_w // 2)) |
|---|
| | | bg_crop_x2 = min(len(img_bg[0]), int(card_x + (card_w / 2) + 0.5)) |
|---|
| | | bg_crop_y1 = max(0, card_y - (card_h // 2)) |
|---|
| | | bg_crop_y2 = min(len(img_bg), int(card_y + (card_h / 2) + 0.5)) |
|---|
| | | img_bg_crop = img_bg[bg_crop_y1:bg_crop_y2, bg_crop_x1:bg_crop_x2] |
|---|
| | | #bg_crop_x1 = card.x - (card_w // 2) |
|---|
| | | #bg_crop_x2 = int(card.x + card_w / 2 + 0.5) |
|---|
| | | #bg_crop_y1 = card.y - (card_h // 2) |
|---|
| | | #bg_crop_y2 = int(card.y + card_h / 2 + 0.5) |
|---|
| | | #img_bg_crop = img_bg[max(0, bg_crop_y1):min(len(img_bg), bg_crop_y2), |
|---|
| | | # max(0, bg_crop_x1):min(len(img_bg[0]), bg_crop_x2)] |
|---|
| | | #print(bg_crop_x1, bg_crop_x2, bg_crop_y1, bg_crop_y2) |
|---|
| | | print(len(img_bg_crop[0]), len(img_bg_crop)) |
|---|
| | | |
|---|
| | | #cv2.circle(img_bg, (card.x, card.y), 2, (0, 0, 255), 3) |
|---|
| | | #cv2.rectangle(img_bg, (0, 0), (len(img_rotate[0]), len(img_rotate)), (0, 255, 0), 3) |
|---|
| | | #cv2.rectangle(img_bg, (bg_crop_x1, bg_crop_y1), (bg_crop_x2, bg_crop_y2), (255, 0, 0), 3) |
|---|
| | | #cv2.imshow('test', img_bg) |
|---|
| | | #cv2.waitKey(0) |
|---|
| | | |
|---|
| | | mask1 = img_card_crop[:, :, 1] |
|---|
| | | a_mask1 = np.stack([mask1] * 3, -1) |
|---|
| | | img_bg_crop = np.where(a_mask1, img_card_crop[:, :, 0:3], img_bg_crop) |
|---|
| | | # Override the background with the current card |
|---|
| | | img_bg_crop = np.where(img_card_crop, img_card_crop, img_bg_crop) |
|---|
| | | img_bg[bg_crop_y1:bg_crop_y2, bg_crop_x1:bg_crop_x2] = img_bg_crop |
|---|
| | | cv2.imshow('Result', img_bg) |
|---|
| | | cv2.waitKey(0) |
|---|
| | |
|---|
| | | """ |
|---|
| | | if isinstance(theta, tuple) or (isinstance(theta, list) and len(theta) == 2): |
|---|
| | | theta = random.uniform(theta[0], theta[1]) |
|---|
| | | x = self.x.copy() |
|---|
| | | y = self.y.copy() |
|---|
| | | |
|---|
| | | # Translate the coordinate to make the centre of rotation be at (0, 0) |
|---|
| | | x -= centre[0] |
|---|
| | | y -= centre[1] |
|---|
| | | # Rotation math |
|---|
| | | self.x -= -centre[1] * math.sin(theta) + centre[0] * math.cos(theta) |
|---|
| | | self.y -= centre[1] * math.cos(theta) + centre[0] * math.sin(theta) |
|---|
| | | |
|---|
| | | # Do the rotation math |
|---|
| | | x_rotate = y * math.sin(theta) + x * math.cos(theta) |
|---|
| | | y_rotate = y * math.cos(theta) - x * math.sin(theta) |
|---|
| | | # Offset for the coordinate translation |
|---|
| | | self.x += centre[0] |
|---|
| | | self.y += centre[1] |
|---|
| | | |
|---|
| | | # Negate the initial offset |
|---|
| | | self.x = x_rotate + centre[0] |
|---|
| | | self.y = y_rotate + centre[1] |
|---|
| | | self.theta += theta |
|---|
| | | pass |
|---|
| | | |
|---|
| | |
|---|
| | | card_img = cv2.imread(img_name) |
|---|
| | | card = Card(card_img, card_info, None) |
|---|
| | | |
|---|
| | | card.bind_to_generator(generator, x=random.randint(0, generator.width), y=random.randint(0, generator.height), |
|---|
| | | theta=random.uniform(0, math.pi / 2), scale=0.5) |
|---|
| | | card.bind_to_generator(generator, x=random.uniform(0, generator.width), y=random.uniform(0, generator.height), |
|---|
| | | theta=0, scale=0.5) |
|---|
| | | card.shift([-100, 100], [-100, 100]) |
|---|
| | | card.rotate((0, 0), [-math.pi, math.pi]) |
|---|
| | | generator.display() |
|---|
| | | |
|---|
| | | ''' |
|---|
| | | img_mask = cv2.bitwise_and(img, mask) |
|---|
| | | img_rotate = imutils.rotate_bound(img_mask, 45) |
|---|
| | | |
|---|
| | | #cv2.imshow('rotated', img_rotate) |
|---|
| | | #cv2.waitKey(0) |
|---|
| | | |
|---|
| | | mask1 = img_rotate[:, :, 1] |
|---|
| | | cv2.imshow('mask', mask1) |
|---|
| | | a_mask1 = np.stack([mask1] * 3, -1) |
|---|
| | | cv2.imshow('a_mask', a_mask1) |
|---|
| | | |
|---|
| | | img_bg = cv2.resize(img_bg, (len(img_rotate[0]), len(img_rotate))) |
|---|
| | | final = np.where(a_mask1, img_rotate[:, :, 0:3], img_bg) |
|---|
| | | final = cv2.resize(final, (len(final[0]) // 2, len(final) // 2)) |
|---|
| | | cv2.imshow('final', final) |
|---|
| | | cv2.waitKey(0) |
|---|
| | | ''' |
|---|
| | | pass |
|---|
| | | |
|---|
| | | |
|---|
