def infer_nip(aur_list): """ Infer nipples. :param aur_list: <BodyPart[]> aur list) :return: <BodyPart[]> nip list """ nip_list = [] for aur in aur_list: # Nip rules: # - circle (w == h) # - min dim: 5 # - bigger if aur is bigger nip_dim = int(5 + aur.w * random.uniform(0.03, 0.09)) # center: x = aur.x y = aur.y # Calculate Bounding Box: xmax, xmin, ymax, ymin = BoundingBox.calculate_bounding_box( nip_dim, nip_dim, x, y) BodyPart.add_body_part_to_list("nip", BoundingBox(xmin, ymin, xmax, ymax), Center(x, y), Dimension(nip_dim, nip_dim), nip_list) return nip_list
def infer_hair(vag_list, enable): """ Infer vaginal hair. :param vag_list: <BodyPart[]> vag list :param enable: <Boolean> Enable or disable hair generation :return: <BodyPart[]> hair list """ hair_list = [] if enable: for vag in vag_list: # Hair rules: hair_w = vag.w * random.uniform(0.4, 1.5) hair_h = vag.h * random.uniform(0.4, 1.5) # center: x = vag.x y = vag.y - (hair_h / 2) - (vag.h / 2) xmax, xmin, ymax, ymin = BoundingBox.calculate_bounding_box( hair_h, hair_w, x, y) BodyPart.add_body_part_to_list("hair", BoundingBox(xmin, ymin, xmax, ymax), Center(x, y), Dimension(hair_w, hair_h), hair_list) return hair_list
def resolve_problem_6(): # Find width aur is full: new_x, new_y = find_l2_width_is_full(tits_list, aur_list) new_w = tits_list[0].w / 2 # Calculate Bounding Box: xmax, xmin, ymax, ymin = BoundingBox.calculate_bounding_box(new_w, new_w, new_x, new_y) BodyPart.add_body_part_to_list("tit", BoundingBox(xmin, ymin, xmax, ymax), Center(new_x, new_y), Dimension(tits_list[0].w, tits_list[0].w), tits_list)
def resolve_problem_8(): # Find width tit is full new_x, new_y = find_l2_width_is_full(aur_list, tits_list) # Calculate Bounding Box: xmin = int(new_x - (aur_list[0].w / 2)) xmax = int(new_x + (aur_list[0].w / 2)) ymin = int(new_y - (aur_list[0].w / 2)) ymax = int(new_y + (aur_list[0].w / 2)) BodyPart.add_body_part_to_list("aur", BoundingBox(xmin, ymin, xmax, ymax), Center(new_x, new_y), Dimension(aur_list[0].w, aur_list[0].w), aur_list)
def find_body_part(image, part_name): """ Find body part. :param image: <RGB> image :param part_name: <string> part_name :return: <BodyPart[]>list """ bodypart_list = [] # empty BodyPart list color_mask = get_correct_filter_color(image, part_name) # find contours: contours, _ = cv2.findContours(color_mask, cv2.RETR_TREE, cv2.CHAIN_APPROX_SIMPLE) # for every contour: for cnt in contours: if len(cnt) > 5: # at least 5 points to fit ellipse # (x, y), (MA, ma), angle = cv2.fitEllipse(cnt) ellipse = cv2.fitEllipse(cnt) # Fit Result: x = ellipse[0][0] # center x y = ellipse[0][1] # center y angle = ellipse[2] # angle a_min = ellipse[1][0] # asse minore a_max = ellipse[1][1] # asse maggiore h, w = detect_direction(a_max, a_min, angle) h, w = normalize_belly_vag(h, part_name, w) xmax, xmin, ymax, ymin = BoundingBox.calculate_bounding_box( h, w, x, y) BodyPart.add_body_part_to_list(part_name, BoundingBox(xmin, ymin, xmax, ymax), Center(x, y), Dimension(w, h), bodypart_list) return bodypart_list
def resolve_problem_7(): # Add the first aur: new_w = tits_list[0].w * random.uniform(0.03, 0.1) # TOTEST new_x = tits_list[0].x new_y = tits_list[0].y xmax, xmin, ymax, ymin = BoundingBox.calculate_bounding_box(new_w, new_w, new_x, new_y) BodyPart.add_body_part_to_list("aur", BoundingBox(xmin, ymin, xmax, ymax), Center(new_x, new_y), Dimension(new_w, new_w), aur_list) # Add the second aur: new_w = tits_list[1].w * random.uniform(0.03, 0.1) # TOTEST new_x = tits_list[1].x new_y = tits_list[1].y xmax, xmin, ymax, ymin = BoundingBox.calculate_bounding_box(new_w, new_w, new_x, new_y) BodyPart.add_body_part_to_list("aur", BoundingBox(xmin, ymin, xmax, ymax), Center(new_x, new_y), Dimension(new_w, new_w), aur_list)
def resolve_problem_3(): random_tit_factor = random.randint(2, 5) # TOTEST # Add the first tit: new_w = aur_list[0].w * random_tit_factor # TOTEST new_x = aur_list[0].x new_y = aur_list[0].y xmax, xmin, ymax, ymin = BoundingBox.calculate_bounding_box(new_w, new_w, new_x, new_y) BodyPart.add_body_part_to_list("tit", BoundingBox(xmin, ymin, xmax, ymax), Center(new_x, new_y), Dimension(new_w, new_w), tits_list) # Add the second tit: new_w = aur_list[1].w * random_tit_factor # TOTEST new_x = aur_list[1].x new_y = aur_list[1].y xmax, xmin, ymax, ymin = BoundingBox.calculate_bounding_box(new_w, new_w, new_x, new_y) BodyPart.add_body_part_to_list("tit", BoundingBox(xmax, xmin, ymax, ymin), Center(new_x, new_y), Dimension(new_w, new_w), tits_list)