mirror of
https://github.com/EyeTrackVR/EyeTrackVR.git
synced 2025-11-04 14:39:42 +08:00
Big organizing cameras. seperated
This commit is contained in:
parent
28e2204ce1
commit
5b52184480
31
EyeTrackApp/Camera/CameraFactory.py
Normal file
31
EyeTrackApp/Camera/CameraFactory.py
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@ -0,0 +1,31 @@
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import cv2
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import numpy as np
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import queue
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import serial
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import serial.tools.list_ports
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import threading
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import time
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from colorama import Fore
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from config import EyeTrackCameraConfig
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from enum import Enum
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import psutil, os
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import sys
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from Camera.CameraState import CameraState
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from Camera.SerialCamera import SerialCamera
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from Camera.SystemCamera import SystemCamera
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from Camera.ICameraSource import ICameraSource
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from Camera.UDP_Camera.UDP_Camera import UDP_Camera
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# Sorry for the (non-OOP) Python devs. Factory time!
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class CameraFactory:
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@staticmethod
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def get_camera_from_string_type(sourceName: str) -> ICameraSource:
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sourceName = str(sourceName) # prevents int to be entered
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if sourceName.lower().startswith("COM") or sourceName.lower().startswith("/dev/cu") or sourceName.lower().startswith("/dev/tty"): # Windows # macOS # Linux
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return SerialCamera
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elif sourceName.lower() == "udp":
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print(f"{Fore.YELLOW}[WARN] UDP selected. Prepare for bugs from BOTAlex. Unfinished and extreme alpha. {Fore.RESET}")
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return UDP_Camera
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else:
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return SystemCamera
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@ -50,6 +50,17 @@ class ICameraSource:
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self.extraInit()
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process = psutil.Process(os.getpid()) # set process priority to low
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try:
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sys.getwindowsversion()
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except AttributeError:
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process.nice(10) # UNIX: 0 low 10 high
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process.nice()
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else:
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process.nice(psutil.HIGH_PRIORITY_CLASS) # Windows
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process.nice()
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# See https://learn.microsoft.com/en-us/windows/win32/api/processthreadsapi/nf-processthreadsapi-getpriorityclass#return-value for values
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self.error_message = f"{Fore.YELLOW}[WARN] Capture source {{}} not found, retrying...{Fore.RESET}"
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@ -76,4 +87,4 @@ class ICameraSource:
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pass
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def set_output_queue(self, camera_output_outgoing: "queue.Queue"):
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self.camera_output_outgoing = camera_output_outgoing
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self.camera_output_outgoing = camera_output_outgoing
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166
EyeTrackApp/Camera/SerialCamera.py
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166
EyeTrackApp/Camera/SerialCamera.py
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@ -0,0 +1,166 @@
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import struct
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import cv2
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import numpy as np
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import queue
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import serial
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import serial.tools.list_ports
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import threading
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import time
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from colorama import Fore
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from config import EyeTrackCameraConfig
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from enum import Enum
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import psutil, os
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import sys
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from Camera.CameraState import CameraState
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from Camera.ICameraSource import ICameraSource
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import socket
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# Serial communication protocol:
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# header-begin (2 bytes)
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# header-type (2 bytes)
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# packet-size (2 bytes)
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# packet (packet-size bytes)
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ETVR_HEADER = b"\xff\xa0"
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ETVR_HEADER_FRAME = b"\xff\xa1"
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ETVR_HEADER_LEN = 6
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class SerialCamera(ICameraSource):
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def run(self):
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while True:
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if self.cancellation_event.is_set():
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print(f"{Fore.CYAN}[INFO] Exiting Capture thread{Fore.RESET}")
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# openCV won't switch to a new source if provided with one
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# so, we have to manually release the camera on exit
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return
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should_push = True
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# If things aren't open, retry until they are. Don't let read requests come in any earlier
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# than this, otherwise we can deadlock ourselves.
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if self.config.capture_source != None and self.config.capture_source != "":
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self.current_capture_source = self.config.capture_source
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addr = str(self.current_capture_source)
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if (
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self.serial_connection is None
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or self.camera_status == CameraState.DISCONNECTED
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or self.config.capture_source != self.current_capture_source
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):
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port = self.config.capture_source
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self.current_capture_source = port
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self.start_serial_connection(port)
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else:
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# We don't have a capture source to try yet, wait for one to show up in the GUI.
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if self.cancellation_event.wait(WAIT_TIME):
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self.camera_status = CameraState.DISCONNECTED
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return
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# Assuming we can access our capture source, wait for another thread to request a capture.
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# Cycle every so often to see if our cancellation token has fired. This basically uses a
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# python event as a context-less, resettable one-shot channel.
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if should_push and not self.capture_event.wait(timeout=0.001):
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continue
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if self.config.capture_source != None:
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addr = str(self.current_capture_source)
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self.get_serial_camera_picture(should_push)
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if not should_push:
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# if we get all the way down here, consider ourselves connected
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self.camera_status = CameraState.CONNECTED
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def get_next_packet_bounds(self):
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beg = -1
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while beg == -1:
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self.buffer += self.serial_connection.read(2048)
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beg = self.buffer.find(ETVR_HEADER + ETVR_HEADER_FRAME)
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# Discard any data before the frame header.
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if beg > 0:
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self.buffer = self.buffer[beg:]
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beg = 0
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# We know exactly how long the jpeg packet is
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end = int.from_bytes(self.buffer[4:6], signed=False, byteorder="little")
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self.buffer += self.serial_connection.read(end - len(self.buffer))
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return beg, end
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def get_next_jpeg_frame(self):
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beg, end = self.get_next_packet_bounds()
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jpeg = self.buffer[beg + ETVR_HEADER_LEN : end + ETVR_HEADER_LEN]
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self.buffer = self.buffer[end + ETVR_HEADER_LEN :]
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return jpeg
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def get_serial_camera_picture(self, should_push):
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conn = self.serial_connection
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if conn is None:
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return
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try:
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if conn.in_waiting:
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jpeg = self.get_next_jpeg_frame()
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if jpeg:
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# Create jpeg frame from byte string
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image = cv2.imdecode(np.fromstring(jpeg, dtype=np.uint8), cv2.IMREAD_UNCHANGED)
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if image is None:
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print(f"{Fore.YELLOW}[WARN] Frame drop. Corrupted JPEG.{Fore.RESET}")
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return
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# Discard the serial buffer. This is due to the fact that it
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# may build up some outdated frames. A bit of a workaround here tbh.
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if conn.in_waiting >= 32768:
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print(f"{Fore.CYAN}[INFO] Discarding the serial buffer ({conn.in_waiting} bytes){Fore.RESET}")
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conn.reset_input_buffer()
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self.buffer = b""
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# Calculate the fps.
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current_frame_time = time.time()
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delta_time = current_frame_time - self.last_frame_time
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self.last_frame_time = current_frame_time
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# Avoid division by zero
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if delta_time > 0:
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fps = 1.0 / delta_time
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else:
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fps = 0
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# Smooth the FPS using a moving average
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self.fl.append(fps)
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if len(self.fl) > 60:
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self.fl.pop(0) # Keep the list length constant
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# Compute average FPS
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self.fps = sum(self.fl) / len(self.fl)
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# Compute bandwidth per second (bps)
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self.bps = image.nbytes * self.fps
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# Increment frame count
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self.frame_number += 1
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if should_push:
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self.push_image_to_queue(image, self.frame_number, self.fps)
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except Exception:
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print(
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f"{Fore.YELLOW}[WARN] Serial capture source problem, assuming camera disconnected, waiting for reconnect.{Fore.RESET}"
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)
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conn.close()
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self.camera_status = CameraState.DISCONNECTED
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pass
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def start_serial_connection(self, port):
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if self.serial_connection is not None and self.serial_connection.is_open:
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# Do nothing. The connection is already open on this port.
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if self.serial_connection.port == port:
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return
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# Otherwise, close the connection before trying to reopen.
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self.serial_connection.close()
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com_ports = [tuple(p) for p in list(serial.tools.list_ports.comports())]
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# Do not try connecting if no such port i.e. device was unplugged.
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if not any(p for p in com_ports if port in p):
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return
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try:
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rate = 115200 if sys.platform == "darwin" else 3000000 # Higher baud rate not working on macOS
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conn = serial.Serial(baudrate=rate, port=port, xonxoff=False, dsrdtr=False, rtscts=False)
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# Set explicit buffer size for serial.
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if sys.platform == "win32":
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buffer_size = 32768
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conn.set_buffer_size(rx_size=buffer_size, tx_size=buffer_size)
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print(f"{Fore.CYAN}[INFO] ETVR Serial Tracker device connected on {port}{Fore.RESET}")
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self.serial_connection = conn
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self.camera_status = CameraState.CONNECTED
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except Exception:
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print(f"{Fore.CYAN}[INFO] Failed to connect on {port}{Fore.RESET}")
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self.camera_status = CameraState.DISCONNECTED
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120
EyeTrackApp/Camera/SystemCamera.py
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120
EyeTrackApp/Camera/SystemCamera.py
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import struct
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import cv2
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import numpy as np
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import queue
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import serial
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import serial.tools.list_ports
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import threading
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import time
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from colorama import Fore
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from config import EyeTrackCameraConfig
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from enum import Enum
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import psutil, os
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import sys
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from Camera.CameraState import CameraState
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from Camera.ICameraSource import ICameraSource
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import socket
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WAIT_TIME = 0.1
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class SystemCamera(ICameraSource):
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def run(self):
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OPENCV_PARAMS = [
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cv2.CAP_PROP_OPEN_TIMEOUT_MSEC,
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5000,
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cv2.CAP_PROP_READ_TIMEOUT_MSEC,
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5000,
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]
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while True:
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if self.cancellation_event.is_set():
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print(f"{Fore.CYAN}[INFO] Exiting Capture thread{Fore.RESET}")
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# openCV won't switch to a new source if provided with one
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# so, we have to manually release the camera on exit
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addr = str(self.current_capture_source)
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self.cv2_camera.release()
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return
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should_push = True
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# If things aren't open, retry until they are. Don't let read requests come in any earlier
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# than this, otherwise we can deadlock ourselves.
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if self.config.capture_source != None and self.config.capture_source != "":
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self.current_capture_source = self.config.capture_source
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addr = str(self.current_capture_source)
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if (
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self.cv2_camera is None
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or not self.cv2_camera.isOpened()
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or self.camera_status == CameraState.DISCONNECTED
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or self.config.capture_source != self.current_capture_source
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):
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print(self.error_message.format(self.config.capture_source))
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# This requires a wait, otherwise we can error and possible screw up the camera
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# firmware. Fickle things.
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if self.cancellation_event.wait(WAIT_TIME):
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return
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self.current_capture_source = self.config.capture_source
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# self.cv2_camera = cv2.VideoCapture(self.current_capture_source)
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self.cv2_camera = cv2.VideoCapture()
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self.cv2_camera.setExceptionMode(True)
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# https://github.com/opencv/opencv/blob/4.8.0/modules/videoio/include/opencv2/videoio.hpp#L803
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self.cv2_camera.open(self.current_capture_source)
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should_push = False
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else:
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# We don't have a capture source to try yet, wait for one to show up in the GUI.
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if self.cancellation_event.wait(WAIT_TIME):
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self.camera_status = CameraState.DISCONNECTED
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return
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# Assuming we can access our capture source, wait for another thread to request a capture.
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# Cycle every so often to see if our cancellation token has fired. This basically uses a
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# python event as a context-less, resettable one-shot channel.
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if should_push and not self.capture_event.wait(timeout=0.001):
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continue
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if self.config.capture_source != None:
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addr = str(self.current_capture_source)
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self.get_cv2_camera_picture(should_push)
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if not should_push:
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# if we get all the way down here, consider ourselves connected
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self.camera_status = CameraState.CONNECTED
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def get_cv2_camera_picture(self, should_push):
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try:
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ret, image = self.cv2_camera.read()
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height, width = image.shape[:2] # Calculate the aspect ratio
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if int(width) > 680:
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aspect_ratio = float(width) / float(
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height
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) # Determine the new height based on the desired maximum width
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new_height = int(680 / aspect_ratio)
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image = cv2.resize(image, (680, new_height))
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if not ret:
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self.cv2_camera.set(cv2.CAP_PROP_POS_FRAMES, 0)
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raise RuntimeError("Problem while getting frame")
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frame_number = self.cv2_camera.get(cv2.CAP_PROP_POS_FRAMES)
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current_frame_time = time.time()
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delta_time = current_frame_time - self.last_frame_time
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if delta_time > 0:
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current_fps = 1 / delta_time
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else:
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current_fps = 0
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self.last_frame_time = current_frame_time
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if len(self.fl) < 60:
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self.fl.append(current_fps)
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else:
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self.fl.pop(0)
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self.fl.append(current_fps)
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self.fps = sum(self.fl) / len(self.fl)
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self.bps = image.nbytes * self.fps
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if should_push:
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self.push_image_to_queue(image, frame_number, self.fps)
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except:
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print(
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f"{Fore.YELLOW}[WARN] Capture source problem, assuming camera disconnected, waiting for reconnect.{Fore.RESET}"
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)
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self.camera_status = CameraState.DISCONNECTED
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pass
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@ -14,7 +14,7 @@ import sys
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from Camera.CameraState import CameraState
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from Camera.ICameraSource import ICameraSource
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import socket
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from .DataPacket import PacketHeader # Python imports stupid. missed a single "."
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from .PacketHeader import PacketHeader # Python imports stupid. missed a single "."
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WAIT_TIME = 0.1
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@ -26,27 +26,10 @@ RED = "\033[91m"
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GREEN = "\033[92m"
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RESET = "\033[0m"
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# I HATE PYTHON!!!! slow fucking...
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# Never know when value passed by value or ref
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# EVERYTHING is lowercase, EXCEPT True and False. ok
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# const is UPPERCASE, but still modifiable. ok
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# Unreadable sudo code language
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# forced upon me by every industry. VR, AI, Websites? bruh
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# Rant over
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# I do not like slow slow slow python - BOTAlex
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class UDP_Camera(ICameraSource):
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def extraInit(self):
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process = psutil.Process(os.getpid()) # set process priority to low
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try:
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sys.getwindowsversion()
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except AttributeError:
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process.nice(10) # UNIX: 0 low 10 high
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process.nice()
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else:
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process.nice(psutil.HIGH_PRIORITY_CLASS) # Windows
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process.nice()
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# See https://learn.microsoft.com/en-us/windows/win32/api/processthreadsapi/nf-processthreadsapi-getpriorityclass#return-value for values
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self.host = "0.0.0.0"
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self.port = 3333
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self.num_loaded = 0
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@ -40,19 +40,6 @@ from Camera.CameraState import CameraState
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from Camera.ICameraSource import ICameraSource
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process = psutil.Process(os.getpid()) # set process priority to low
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try:
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sys.getwindowsversion()
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except AttributeError:
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process.nice(10) # UNIX: 0 low 10 high
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process.nice()
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else:
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process.nice(psutil.HIGH_PRIORITY_CLASS) # Windows
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process.nice()
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# See https://learn.microsoft.com/en-us/windows/win32/api/processthreadsapi/nf-processthreadsapi-getpriorityclass#return-value for values
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WAIT_TIME = 0.1
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# Serial communication protocol:
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# header-begin (2 bytes)
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@ -32,8 +32,8 @@ import math
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from eye import EyeId
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from eye_processor import EyeProcessor, EyeInfoOrigin
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from queue import Queue, Empty
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from Camera.camera import Camera, CameraState
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from Camera.UDP_Camera.UDP_Camera import UDP_Camera
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from Camera.camera import CameraState
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from Camera.CameraFactory import CameraFactory
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import cv2
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from osc.OSCMessage import OSCMessageType, OSCMessage
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from utils.misc_utils import PlaySound, SND_FILENAME, SND_ASYNC, resource_path
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@ -105,18 +105,10 @@ class CameraWidget:
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)
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self.camera_status_queue = Queue()
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if not self.config.capture_source is None and "UDP" in self.config.capture_source: # Not the best code but I don't care. I want to be finished
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print("UDP selected. Prepare for bugs from BOTAlex")
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self.camera = UDP_Camera(
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self.config,
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0,
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self.cancellation_event,
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self.capture_event,
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self.camera_status_queue,
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self.capture_queue,
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)
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else:
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self.camera = Camera(
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CameraFactory
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if not self.config.capture_source is None:
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self.camera = CameraFactory.get_camera_from_string_type(self.config.capture_source)(
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self.config,
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0,
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self.cancellation_event,
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