219 lines
6.7 KiB
Python
219 lines
6.7 KiB
Python
import json
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import os
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import pickle
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import socket
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import sys
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import torch
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from ultralytics import YOLO
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import cv2
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import time
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import poses
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import utils
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from calculate import normalize_pose, compare_poses_boolean
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from draw import draw_new
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from utils import find_closest
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from video_methods import initialize_method
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model = YOLO("yolo11s-pose.pt")
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model.to(torch.device('cuda:0'))
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if len(sys.argv) == 2:
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method_type = sys.argv[1]
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else:
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print("Podaj argument 'cam', albo 'net'.")
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exit(1)
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method = initialize_method(method_type)
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do_pose_shot = False
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def click_event(event, x, y, flags, param):
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global do_pose_shot
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if event == cv2.EVENT_LBUTTONDOWN: # lewy przycisk myszy
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do_pose_shot = not do_pose_shot
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def main():
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last_time = time.time()
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currTimeIndex = 0
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currIndex = None
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currMove = None
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currStatus = "Zacznij tanczyc"
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mehCount = 0
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goodCount = 0
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failCount = 0
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failRate = 10
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server_socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
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server_socket.bind(("0.0.0.0", 13425))
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server_socket.listen()
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print("czekam na clienta...")
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client_socket, _ = server_socket.accept()
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print("mam clienta!")
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data = client_socket.recv(1024).decode()
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if not data.startswith("id_"):
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client_socket.close()
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server_socket.close()
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return
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map = data.replace("id_", "").replace("\n", "").strip()
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if not os.path.isfile(f'moves_{map}.pkl'):
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print(map)
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print("moves_" + map + ".pkl")
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client_socket.sendall("not_exists".encode())
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client_socket.close()
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server_socket.close()
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return
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moves = []
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with open(f'moves_{map}.pkl', 'rb') as f: # 'rb' = read binary
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moves = pickle.load(f)
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startValue = moves[0][0]
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totalCount = len(moves)
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for i, move in enumerate(moves):
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moves[i] = ((move[0] - startValue) / 1000, move[1], move[2])
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currIndex = 1
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currTimeIndex = time.time()
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deltaTime = time.time()
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currStatus = f"Zaczoles tanczyc {currIndex}"
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currMove = moves[0]
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doStreak = False
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streak = 0
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doing = 0
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actuallyDoing = False
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while True:
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doing += 1
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frame = method.receive_frame()
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frame = cv2.flip(frame, 1)
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results = model(frame, verbose=False)
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if not actuallyDoing:
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client_socket.sendall("start".encode())
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actuallyDoing = True
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current_time = time.time()
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delta = current_time - last_time
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last_time = current_time
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if doing % 30 == 0:
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if doStreak:
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streak += 5
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client_socket.sendall(f"streak_{streak}".encode())
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else:
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streak = 0
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client_socket.sendall(f"streak_0".encode())
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fps = 1 / delta if delta > 0 else float('inf')
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# print(f"\rDelta: {delta:.4f}s, FPS: {fps:.2f}", end="")
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if len(results) != 0:
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result = results[0]
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kpts = result.keypoints.data[0] if len(result.keypoints.data) else None
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if kpts is None:
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continue
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img = frame
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normalized = normalize_pose(result.keypoints.xy.cpu().numpy()[0])
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draw = utils.normalize(result.keypoints.xy.cpu().numpy()[0])
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cv2.imshow('you', draw_new(draw * 100 + 100))
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if currTimeIndex != 0 and moves.index(find_closest(moves, time.time() - currTimeIndex)) == len(moves) - 1:
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mehCount = abs(totalCount - (failCount + goodCount))
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stats = {
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"failCount": failCount,
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"goodCount": goodCount,
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"mehCount": mehCount,
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"percentage": (goodCount + (0.85 * mehCount)) / totalCount * 100
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}
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client_socket.sendall(f"finish_{json.dumps(stats)}".encode())
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print(
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f"PODSUMOWANIE: FAIL {failCount} MEH: {mehCount} PERFECT: {goodCount} PERCENTAGE: {(goodCount + (0.85 * mehCount)) / totalCount * 100}%")
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cv2.destroyAllWindows()
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break
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# thread = Thread(target=print_animation, args=(moves, False))
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# thread.start()
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else:
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changed = False
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closest = find_closest(moves, time.time() - currTimeIndex)
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cv2.imshow('Dots', draw_new(utils.normalize(closest[2]) * 250 + 250))
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if abs((time.time() - currTimeIndex) - moves[currIndex][0]) > failRate:
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currStatus = f"FAIL!"
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failCount += 1
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doStreak = False
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if compare_poses_boolean(closest[1], normalized):
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# delays += (time.time() - deltaTime - moves[0][0]) * 1000
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# delaysCount += 1
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# currStatus = f"SUPER! {currIndex} Zostalo {len(moves)} Delay {(time.time() - currTimeIndex - closest[0]) / 1000}ms"
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deltaTime = time.time()
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currIndex = moves.index(closest) + 1
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goodCount += 1
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changed = True
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doStreak = True
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if not changed and compare_poses_boolean(moves[currIndex][1], normalized):
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# delays += (time.time() - deltaTime - moves[0][0]) * 1000
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# delaysCount += 1
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# currStatus = f"SUPER! {currIndex} Zostalo {len(moves)} Delay {(time.time() - currTimeIndex - closest[0]) / 1000}ms"
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deltaTime = time.time()
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changed = True
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currIndex += 1
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goodCount += 1
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doStreak = True
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# if do_pose_shot:
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# moves.append((time.time() - startTime, normalize_pose(result.keypoints.xy.cpu().numpy()[0]), result.keypoints.xy.cpu()[0]))
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# elif len(moves) != 0:
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# with open('moves.pkl', 'wb') as f: # 'wb' = write binary
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# pickle.dump
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# (moves, f)
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#
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# exit(1)
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cv2.putText(
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img, # obraz
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currStatus, # tekst
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(50, 100), # pozycja (x, y) lewego dolnego rogu tekstu
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cv2.FONT_HERSHEY_SIMPLEX, # czcionka
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1, # rozmiar (skalowanie)
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(0, 0, 255), # kolor (BGR) - tutaj czerwony
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2, # grubość linii
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cv2.LINE_AA # typ antyaliasingu
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)
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cv2.imshow('Klatka z kamerki', img)
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cv2.setMouseCallback('Klatka z kamerki', click_event)
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cv2.waitKey(1) # Czekaj na naciśnięcie klawisza
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try:
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while True:
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main()
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except KeyboardInterrupt:
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pass |