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import mediapipe as mp |
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import cv2 |
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import numpy as np |
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import datetime |
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import os |
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import math |
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from django.conf import settings |
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mp_drawing = mp.solutions.drawing_utils |
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mp_pose = mp.solutions.pose |
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def calculate_angle(point1: list, point2: list, point3: list) -> float: |
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"""Calculate the angle between 3 points |
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Args: |
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point1 (list): Point 1 coordinate |
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point2 (list): Point 2 coordinate |
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point3 (list): Point 3 coordinate |
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Returns: |
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float: angle in degree |
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""" |
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point1 = np.array(point1) |
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point2 = np.array(point2) |
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point3 = np.array(point3) |
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angleInRad = np.arctan2(point3[1] - point2[1], point3[0] - point2[0]) - np.arctan2( |
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point1[1] - point2[1], point1[0] - point2[0] |
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) |
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angleInDeg = np.abs(angleInRad * 180.0 / np.pi) |
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angleInDeg = angleInDeg if angleInDeg <= 180 else 360 - angleInDeg |
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return angleInDeg |
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def calculate_distance(pointX: list, pointY: list) -> float: |
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"""Calculate distance between 2 points in a frame |
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Args: |
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pointX (list): First point coordinate |
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pointY (list): Second point coordinate |
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Returns: |
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float: _description_ |
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""" |
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x1, y1 = pointX |
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x2, y2 = pointY |
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return math.sqrt((x2 - x1) ** 2 + (y2 - y1) ** 2) |
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def extract_important_keypoints(results, important_landmarks: list) -> list: |
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"""Extract important landmarks' data from MediaPipe output |
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Args: |
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results : MediaPipe Pose output |
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important_landmarks (list): list of important landmarks |
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Returns: |
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list: list of important landmarks' data from MediaPipe output |
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""" |
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landmarks = results.pose_landmarks.landmark |
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data = [] |
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for lm in important_landmarks: |
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keypoint = landmarks[mp_pose.PoseLandmark[lm].value] |
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data.append([keypoint.x, keypoint.y, keypoint.z, keypoint.visibility]) |
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return np.array(data).flatten().tolist() |
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def get_drawing_color(error: bool) -> tuple: |
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"""Get drawing color for MediaPipe Pose |
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Args: |
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error (bool): True if correct pose, False if incorrect pose |
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Returns: |
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tuple: RGB colors |
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""" |
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LIGHT_BLUE = (244, 117, 66) |
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LIGHT_PINK = (245, 66, 230) |
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LIGHT_RED = (29, 62, 199) |
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LIGHT_YELLOW = (1, 143, 241) |
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return (LIGHT_YELLOW, LIGHT_RED) if error else (LIGHT_BLUE, LIGHT_PINK) |
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def rescale_frame(frame, percent=50): |
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"""Rescale a frame from OpenCV to a certain percentage compare to its original frame |
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Args: |
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frame: OpenCV frame |
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percent (int, optional): percent to resize an old frame. Defaults to 50. |
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Returns: |
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_type_: OpenCV frame |
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""" |
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width = int(frame.shape[1] * percent / 100) |
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height = int(frame.shape[0] * percent / 100) |
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dim = (width, height) |
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return cv2.resize(frame, dim, interpolation=cv2.INTER_AREA) |
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def save_frame_as_image(frame, message: str = None): |
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""" |
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Save a frame as image to display the error |
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""" |
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now = datetime.datetime.now() |
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if message: |
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cv2.putText( |
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frame, |
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message, |
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(50, 150), |
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cv2.FONT_HERSHEY_COMPLEX, |
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0.4, |
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(0, 0, 0), |
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1, |
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cv2.LINE_AA, |
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) |
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print("Saving ...") |
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cv2.imwrite(f"../data/logs/bicep_{now}.jpg", frame) |
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def get_static_file_url(file_name: str) -> str: |
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"""Return static url of a file |
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Args: |
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file_name (str) |
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Returns: |
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str: Full absolute path of the file. Return None if file is not found |
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""" |
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path = f"{settings.STATICFILES_DIRS[0]}/{file_name}" |
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print(path) |
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return path if os.path.exists(path) else None |
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