feat: switch to objects
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125
src/environment.py
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125
src/environment.py
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import logging
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import cv2
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import mediapipe as mp
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import pygame as pg
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from parts.eye import Eye
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class Environment:
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def __init__(self, camera: cv2.VideoCapture) -> None:
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# store reference to webcam
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self.cam = camera
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# mediapipe stuff
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self.mp_drawing = mp.solutions.drawing_utils # type: ignore
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self.mp_drawing_styles = mp.solutions.drawing_styles # type: ignore
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self.mp_face_mesh = mp.solutions.face_mesh # type: ignore
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# init pygame
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pg.init()
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# get screen size from webcam
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self.screen_width = camera.get(3)
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self.screen_height = camera.get(4)
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# create screen
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self.screen: pg.Surface = pg.display.set_mode(
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(self.screen_width, self.screen_height),
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pg.DOUBLEBUF | pg.HWSURFACE,
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) # type: ignore
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pg.display.set_caption("Projet APP")
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# create body parts
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self.body_parts = {
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"left_eye": Eye(False),
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"right_eye": Eye(True),
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}
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def start(self) -> None:
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while self.cam.isOpened():
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# read webcam
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success, self.frame = self.cam.read()
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if not success:
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logging.debug("Ignoring empty camera frame.")
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continue
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# stop if q is pressed (opencv)
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if cv2.waitKey(5) & 0xFF == ord("q"):
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break
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# quit the game
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if any(
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[event.type == pg.KEYDOWN and event.key == pg.K_q for event in pg.event.get()],
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):
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break
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# detect keypoints on frame
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self.detect_keypoints()
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# draw keypoints on top of fram
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self.draw_keypoints()
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# draw avatar
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self.draw_avatar()
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def detect_keypoints(self) -> None:
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with self.mp_face_mesh.FaceMesh(
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max_num_faces=1,
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refine_landmarks=True,
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min_detection_confidence=0.5,
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min_tracking_confidence=0.5,
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) as face_mesh:
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# perf, mark image as not writeable to pass by reference
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self.frame.flags.writeable = False
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# convert the BGR image to RGB before processing
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self.frame = cv2.cvtColor(self.frame, cv2.COLOR_BGR2RGB)
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# process the image to detect keypoints
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self.results = face_mesh.process(self.frame)
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# re-enable writeable flag
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self.frame.flags.writeable = True
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# convert the image back to BGR format
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self.frame = cv2.cvtColor(self.frame, cv2.COLOR_RGB2BGR)
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def draw_keypoints(self) -> None:
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# draw the face mesh annotations on the image.
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if self.results.multi_face_landmarks:
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for face_landmarks in self.results.multi_face_landmarks:
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self.mp_drawing.draw_landmarks(
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image=self.frame,
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landmark_list=face_landmarks,
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connections=self.mp_face_mesh.FACEMESH_TESSELATION,
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landmark_drawing_spec=None,
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connection_drawing_spec=self.mp_drawing_styles.get_default_face_mesh_tesselation_style(),
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)
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self.mp_drawing.draw_landmarks(
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image=self.frame,
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landmark_list=face_landmarks,
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connections=self.mp_face_mesh.FACEMESH_CONTOURS,
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landmark_drawing_spec=None,
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connection_drawing_spec=self.mp_drawing_styles.get_default_face_mesh_contours_style(),
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)
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self.mp_drawing.draw_landmarks(
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image=self.frame,
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landmark_list=face_landmarks,
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connections=self.mp_face_mesh.FACEMESH_IRISES,
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landmark_drawing_spec=None,
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connection_drawing_spec=self.mp_drawing_styles.get_default_face_mesh_iris_connections_style(),
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)
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# flip the image horizontally for a selfie-view display
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cv2.imshow("MediaPipe Face Mesh", cv2.flip(self.frame, 1))
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def draw_avatar(self) -> None:
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self.screen.fill(pg.Color("green"))
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for part in self.body_parts.values():
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part.draw(self.screen)
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pg.display.flip()
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59
src/main.py
59
src/main.py
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import logging
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import cv2
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import mediapipe as mp
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from environment import Environment
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def main() -> None:
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"""Main function."""
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mp_drawing = mp.solutions.drawing_utils # type: ignore
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mp_drawing_styles = mp.solutions.drawing_styles # type: ignore
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mp_face_mesh = mp.solutions.face_mesh # type: ignore
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# open webcam
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cap = cv2.VideoCapture(0)
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with mp_face_mesh.FaceMesh(
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max_num_faces=2, refine_landmarks=True, min_detection_confidence=0.5, min_tracking_confidence=0.5
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) as face_mesh:
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# create env
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env = Environment(cap)
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while cap.isOpened():
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# read webcam
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success, image = cap.read()
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if not success:
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print("Ignoring empty camera frame.")
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# If loading a video, use 'break' instead of 'continue'
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continue
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# to improve performance, optionally mark the image as not writeable to pass by reference.
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image.flags.writeable = False
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image = cv2.cvtColor(image, cv2.COLOR_BGR2RGB)
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results = face_mesh.process(image)
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# draw the face mesh annotations on the image.
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image.flags.writeable = True
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image = cv2.cvtColor(image, cv2.COLOR_RGB2BGR)
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if results.multi_face_landmarks:
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for face_landmarks in results.multi_face_landmarks:
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mp_drawing.draw_landmarks(
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image=image,
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landmark_list=face_landmarks,
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connections=mp_face_mesh.FACEMESH_TESSELATION,
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landmark_drawing_spec=None,
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connection_drawing_spec=mp_drawing_styles.get_default_face_mesh_tesselation_style(),
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)
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mp_drawing.draw_landmarks(
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image=image,
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landmark_list=face_landmarks,
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connections=mp_face_mesh.FACEMESH_CONTOURS,
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landmark_drawing_spec=None,
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connection_drawing_spec=mp_drawing_styles.get_default_face_mesh_contours_style(),
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)
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mp_drawing.draw_landmarks(
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image=image,
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landmark_list=face_landmarks,
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connections=mp_face_mesh.FACEMESH_IRISES,
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landmark_drawing_spec=None,
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connection_drawing_spec=mp_drawing_styles.get_default_face_mesh_iris_connections_style(),
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)
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# flip the image horizontally for a selfie-view display.
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cv2.imshow("MediaPipe Face Mesh", cv2.flip(image, 1))
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if cv2.waitKey(5) & 0xFF == 27:
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break
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# start env
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env.start()
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# close webcam
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cap.release()
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