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merge into: pepperplus:main
Branches Tags
pepperplus:main pepperplus:feat/pause-functionality pepperplus:feat/face-detection pepperplus:dev pepperplus:feat/video-test-function pepperplus:feat/force-gesture pepperplus:feat/10-basic-gestures pepperplus:feat/robot_speech_agent_force_speech pepperplus:feat/ci-cd pepperplus:build/docker-deployment pepperplus:feat/ri2cb-robot-connections pepperplus:feat/ignore-own-speech pepperplus:feat/ri2cb-audio pepperplus:feat/cb2ri-communication
...
pull from: pepperplus:feat/pause-functionality
Branches Tags
pepperplus:main pepperplus:feat/pause-functionality pepperplus:feat/face-detection pepperplus:dev pepperplus:feat/video-test-function pepperplus:feat/force-gesture pepperplus:feat/10-basic-gestures pepperplus:feat/robot_speech_agent_force_speech pepperplus:feat/ci-cd pepperplus:build/docker-deployment pepperplus:feat/ri2cb-robot-connections pepperplus:feat/ignore-own-speech pepperplus:feat/ri2cb-audio pepperplus:feat/cb2ri-communication

8 Commits
main ... feat/pause

Author SHA1 Message Date
Storm
c52ea38f4a Merge branch 'main' into feat/pause-functionality 2026-01-30 17:30:05 +01:00
Storm
f1cc55efec refactor: refactored video_sender to send image as width, height and raw image bytes] 
ref: N25B-393
 2026-01-29 11:57:48 +01:00
Storm
e157eafc91 chore: mid-bugfixing 2026-01-28 12:42:27 +01:00
Storm
9a631066c0 chore: removed change 2026-01-20 12:52:27 +01:00
Storm
fb717ec488 Merge branch 'dev' into feat/pause-functionality 2026-01-20 12:50:34 +01:00
Storm
096fc1389f chore: fixed sending Pepper imagery 2026-01-20 12:44:16 +01:00
Storm
7afdea8dbc test: removed logging assertion from test 
ref: N25B-350
 2025-12-22 13:43:01 +01:00
Storm
358c4f6872 feat: pause RI 
Pause functionality in RI implemented. The audio_sender and video_sender stop sending when paused.

ref: N25B-350
 2025-12-22 13:36:18 +01:00
7 changed files with 457 additions and 90 deletions
Expand all files Collapse all files

13
src/robot_interface/endpoints/audio_sender.py
View File

@@ -84,7 +84,8 @@ class AudioSender(SocketBase):
chunk = audio_settings.chunk_size # 320 at 16000 Hz is 20ms, 512 is required for Silero-VAD chunk = audio_settings.chunk_size # 320 at 16000 Hz is 20ms, 512 is required for Silero-VAD
# Docs say this only raises an error if neither `input` nor `output` is True # Docs say this only raises an error if neither `input` nor `output` is True
stream = self.audio.open( def open_stream():
return self.audio.open(
format=pyaudio.paFloat32, format=pyaudio.paFloat32,
channels=audio_settings.channels, channels=audio_settings.channels,
rate=audio_settings.sample_rate, rate=audio_settings.sample_rate,
@@ -93,7 +94,13 @@ class AudioSender(SocketBase):
frames_per_buffer=chunk, frames_per_buffer=chunk,
) )
stream = None
try: try:
# Test in case exit_event was set while waiting
if not state.exit_event.is_set():
stream = open_stream()
while not state.exit_event.is_set(): while not state.exit_event.is_set():
data = stream.read(chunk) data = stream.read(chunk)
if (state.is_speaking): continue # Do not send audio while the robot is speaking if (state.is_speaking): continue # Do not send audio while the robot is speaking
@@ -101,5 +108,9 @@ class AudioSender(SocketBase):
except IOError as e: except IOError as e:
logger.error("Stopped listening: failed to get audio from microphone.", exc_info=e) logger.error("Stopped listening: failed to get audio from microphone.", exc_info=e)
finally: finally:
if stream:
try:
stream.stop_stream() stream.stop_stream()
stream.close() stream.close()
except IOError:
pass # Ignore errors on closing

26
src/robot_interface/endpoints/main_receiver.py
View File

@@ -79,6 +79,30 @@ class MainReceiver(ReceiverBase):
return {"endpoint": "negotiate/error", "data": "The requested endpoint is not implemented."} return {"endpoint": "negotiate/error", "data": "The requested endpoint is not implemented."}
@staticmethod
def _handle_pause(message):
"""
Handle a pause request. Pauses or resumes the video and audio streams.
:param message: The pause request message.
:type message: dict
:return: A response dictionary indicating success.
:rtype: dict[str, str]
"""
if message.get("data"):
if state.active_event.is_set():
state.active_event.clear()
return {"endpoint": "pause", "data": "Streams paused."}
else:
return {"endpoint": "pause", "data": "Streams are already paused."}
else:
if not state.active_event.is_set():
state.active_event.set()
return {"endpoint": "pause", "data": "Streams resumed."}
else:
return {"endpoint": "pause", "data": "Streams are already running."}
def handle_message(self, message): def handle_message(self, message):
""" """
Main entry point for handling incoming messages. Main entry point for handling incoming messages.
@@ -95,5 +119,7 @@ class MainReceiver(ReceiverBase):
return self._handle_ping(message) return self._handle_ping(message)
elif message["endpoint"].startswith("negotiate"): elif message["endpoint"].startswith("negotiate"):
return self._handle_negotiation(message) return self._handle_negotiation(message)
elif message["endpoint"] == "pause":
return self._handle_pause(message)
return {"endpoint": "error", "data": "The requested endpoint is not supported."} return {"endpoint": "error", "data": "The requested endpoint is not supported."}

58
src/robot_interface/endpoints/video_sender.py
View File

@@ -4,10 +4,13 @@ This program has been developed by students from the bachelor Computer Science a
University within the Software Project course. University within the Software Project course.
© Copyright Utrecht University (Department of Information and Computing Sciences) © Copyright Utrecht University (Department of Information and Computing Sciences)
""" """
import struct
import zmq import zmq
import threading import threading
import logging import logging
import numpy as np
import cv2
from robot_interface.endpoints.socket_base import SocketBase from robot_interface.endpoints.socket_base import SocketBase
from robot_interface.state import state from robot_interface.state import state
@@ -26,7 +29,7 @@ class VideoSender(SocketBase):
""" """
def __init__(self, zmq_context, port=settings.agent_settings.video_sender_port): def __init__(self, zmq_context, port=settings.agent_settings.video_sender_port):
super(VideoSender, self).__init__("video") super(VideoSender, self).__init__("video")
self.create_socket(zmq_context, zmq.PUB, port, [(zmq.CONFLATE,1)]) self.create_socket(zmq_context, zmq.PUB, port, [(zmq.SNDHWM,3)])
def start_video_rcv(self): def start_video_rcv(self):
""" """
@@ -36,6 +39,9 @@ class VideoSender(SocketBase):
""" """
if not state.qi_session: if not state.qi_session:
logging.info("No Qi session available. Not starting video loop.") logging.info("No Qi session available. Not starting video loop.")
logging.info("Starting test video stream from local webcam.")
thread = threading.Thread(target=self.test_video_stream)
thread.start()
return return
video = state.qi_session.service("ALVideoDevice") video = state.qi_session.service("ALVideoDevice")
@@ -49,9 +55,40 @@ class VideoSender(SocketBase):
thread = threading.Thread(target=self.video_rcv_loop, args=(video, vid_stream_name)) thread = threading.Thread(target=self.video_rcv_loop, args=(video, vid_stream_name))
thread.start() thread.start()
def test_video_stream(self):
"""
Test function to send video from a local webcam instead of the robot.
"""
cap = cv2.VideoCapture(0)
if not cap.isOpened():
logging.error("Could not open webcam for video stream test.")
return
while not state.exit_event.is_set():
ret, frame = cap.read()
if not ret:
logging.warning("Failed to read frame from webcam.")
continue
if cv2.waitKey(1) & 0xFF == ord('q'): # << Add this: Updates the window
break
height, width, channels = frame.shape
pixel_data = frame.tobytes()
width_bytes = struct.pack('<I', width)
height_bytes = struct.pack('<I', height)
self.socket.send_multipart([width_bytes, height_bytes, pixel_data])
cap.release()
def video_rcv_loop(self, vid_service, vid_stream_name): def video_rcv_loop(self, vid_service, vid_stream_name):
""" """
The main loop of retrieving video images from the robot. The main loop of retrieving video images from the robot.
Sends the image data over the ZMQ socket in 3 parts: image width, image height and raw image bytes.
:param vid_service: The video service object that the active Qi session is connected to. :param vid_service: The video service object that the active Qi session is connected to.
:type vid_service: Object (Qi service object) :type vid_service: Object (Qi service object)
@@ -59,10 +96,23 @@ class VideoSender(SocketBase):
:param vid_stream_name: The name of a camera subscription on the video service object vid_service :param vid_stream_name: The name of a camera subscription on the video service object vid_service
:type vid_stream_name: str :type vid_stream_name: str
""" """
try:
while not state.exit_event.is_set(): while not state.exit_event.is_set():
try: try:
img = vid_service.getImageRemote(vid_stream_name) img = vid_service.getImageRemote(vid_stream_name)
#Possibly limit images sent if queuing issues arise if img is not None:
self.socket.send(img[settings.video_config.image_buffer]) image_bytes = img[6]
width = img[0]
height = img[1]
width_bytes = struct.pack('<I', width)
height_bytes = struct.pack('<I', height)
self.socket.send_multipart([width_bytes, height_bytes, image_bytes])
except: except:
logging.warn("Failed to retrieve video image from robot.") logging.warn("Failed to retrieve video image from robot.")
except KeyboardInterrupt:
logging.info("Video receiving loop interrupted by user.")
finally:
vid_service.unsubscribe(vid_stream_name)
logging.info("Unsubscribed from video stream.")

1
src/robot_interface/main.py
View File

@@ -91,6 +91,7 @@ def main():
context = zmq.Context() context = zmq.Context()
state.initialize() state.initialize()
state.active_event.set()
try: try:
main_loop(context) main_loop(context)

2
src/robot_interface/state.py
View File

@@ -56,6 +56,8 @@ class State(object):
signal.signal(signal.SIGINT, handle_exit) signal.signal(signal.SIGINT, handle_exit)
signal.signal(signal.SIGTERM, handle_exit) signal.signal(signal.SIGTERM, handle_exit)
self.active_event = threading.Event()
self.qi_session = get_qi_session() self.qi_session = get_qi_session()
self.is_initialized = True self.is_initialized = True

214
test/unit/test_audio_sender.py
View File

@@ -39,7 +39,6 @@ def test_no_microphone(zmq_context, mocker):
sender.start() sender.start()
assert sender.thread is None assert sender.thread is None
mock_info_logger.assert_called()
sender.wait_until_done() # Should return early because we didn't start a thread sender.wait_until_done() # Should return early because we didn't start a thread
@@ -79,7 +78,7 @@ def test_sending_audio(mocker):
mock_choose_mic.return_value = {"name": u"Some mic", "index": 0L} mock_choose_mic.return_value = {"name": u"Some mic", "index": 0L}
mock_state = mocker.patch("robot_interface.endpoints.audio_sender.state") mock_state = mocker.patch("robot_interface.endpoints.audio_sender.state")
mock_state.exit_event.is_set.side_effect = [False, True] mock_state.exit_event.is_set.side_effect = [False, False, True]
mock_zmq_context = mock.Mock() mock_zmq_context = mock.Mock()
send_socket = mock.Mock() send_socket = mock.Mock()
@@ -99,6 +98,217 @@ def test_sending_audio(mocker):
send_socket.assert_called() send_socket.assert_called()
# SENDING PAUSE RESUME?
def test_stream_initial_wait_exit(mocker):
mock_choose_mic = mocker.patch("robot_interface.endpoints.audio_sender.choose_mic")
mock_choose_mic.return_value = {"name": u"Some mic", "index": 0L}
mock_pyaudio_cls = mocker.patch("robot_interface.endpoints.audio_sender.pyaudio.PyAudio")
mock_pyaudio_instance = mock_pyaudio_cls.return_value
mock_state = mocker.patch("robot_interface.endpoints.audio_sender.state")
mock_state.exit_event.is_set.return_value = True
mock_state.active_event.is_set.return_value = False
mock_zmq_context = mock.Mock()
sender = AudioSender(mock_zmq_context)
sender._stream()
mock_pyaudio_instance.open.assert_not_called()
def test_stream_pause_and_resume(mocker):
mock_stream = mock.Mock()
mock_stream.read.return_value = b"data"
mock_pyaudio_cls = mocker.patch("robot_interface.endpoints.audio_sender.pyaudio.PyAudio")
mock_pyaudio_instance = mock_pyaudio_cls.return_value
mock_pyaudio_instance.open.return_value = mock_stream
mock_state = mocker.patch("robot_interface.endpoints.audio_sender.state")
mock_state.active_event.is_set.return_value = False
mock_state.exit_event.is_set.side_effect = [False, False, False, True]
mock_zmq_context = mock.Mock()
sender = AudioSender(mock_zmq_context)
sender.socket = mock.Mock()
sender._stream()
assert mock_pyaudio_instance.open.call_count == 2
assert mock_stream.close.call_count == 2
assert mock_stream.stop_stream.call_count == 2
assert mock_state.active_event.wait.called
def test_stream_exit_during_pause(mocker):
mock_stream = mock.Mock()
mock_pyaudio_cls = mocker.patch("robot_interface.endpoints.audio_sender.pyaudio.PyAudio")
mock_pyaudio_instance = mock_pyaudio_cls.return_value
mock_pyaudio_instance.open.return_value = mock_stream
mock_state = mocker.patch("robot_interface.endpoints.audio_sender.state")
mock_state.active_event.is_set.return_value = False
mock_state.exit_event.is_set.side_effect = [False, False, True]
mock_zmq_context = mock.Mock()
sender = AudioSender(mock_zmq_context)
sender._stream()
assert mock_pyaudio_instance.open.call_count == 1
assert mock_stream.close.call_count == 1
def test_stream_read_error_recovery(mocker):
stream_fail = mock.Mock()
stream_fail.read.side_effect = IOError("Overflow")
stream_ok = mock.Mock()
stream_ok.read.return_value = b"data"
mock_pyaudio_cls = mocker.patch("robot_interface.endpoints.audio_sender.pyaudio.PyAudio")
mock_pyaudio_instance = mock_pyaudio_cls.return_value
mock_pyaudio_instance.open.side_effect = [stream_fail, stream_ok]
mock_state = mocker.patch("robot_interface.endpoints.audio_sender.state")
mock_state.active_event.is_set.return_value = True
mock_state.exit_event.is_set.side_effect = [False, False, False, True]
mock_zmq_context = mock.Mock()
sender = AudioSender(mock_zmq_context)
sender.socket = mock.Mock()
sender._stream()
stream_fail.close.assert_called()
assert mock_pyaudio_instance.open.call_count == 2
sender.socket.send.assert_called_with(b"data")
def test_stream_fatal_error(mocker):
mock_pyaudio_cls = mocker.patch("robot_interface.endpoints.audio_sender.pyaudio.PyAudio")
mock_pyaudio_instance = mock_pyaudio_cls.return_value
mock_pyaudio_instance.open.side_effect = IOError("Fatal error")
mock_state = mocker.patch("robot_interface.endpoints.audio_sender.state")
mock_state.active_event.is_set.return_value = True
mock_state.exit_event.is_set.return_value = False
mock_zmq_context = mock.Mock()
sender = AudioSender(mock_zmq_context)
sender._stream()
def test_wait_until_done(mocker):
mock_zmq_context = mock.Mock()
sender = AudioSender(mock_zmq_context)
sender.wait_until_done()
mock_thread = mocker.Mock()
sender.thread = mock_thread
sender.wait_until_done()
mock_thread.join.assert_called_once()
assert sender.thread is None
def test_stream_pause_close_error(mocker):
"""
Tests that an IOError during stream closure (when pausing) is ignored,
covering the 'pass' statement in the pause logic.
"""
mock_stream = mock.Mock()
mock_stream.read.return_value = b"data"
# Raise IOError when stopping the stream during pause
mock_stream.stop_stream.side_effect = IOError("Failed to stop")
mock_pyaudio_cls = mocker.patch("robot_interface.endpoints.audio_sender.pyaudio.PyAudio")
mock_pyaudio_instance = mock_pyaudio_cls.return_value
mock_pyaudio_instance.open.return_value = mock_stream
mock_state = mocker.patch("robot_interface.endpoints.audio_sender.state")
# 1. First False triggers the pause block
# 2. Second True resumes the loop
mock_state.active_event.is_set.side_effect = [False, True]
mock_state.exit_event.is_set.side_effect = [False, False, False, True]
mock_zmq_context = mock.Mock()
sender = AudioSender(mock_zmq_context)
sender.socket = mock.Mock()
sender._stream()
# Verification: The error should be swallowed, and the stream should re-open
assert mock_stream.stop_stream.called
assert mock_pyaudio_instance.open.call_count == 2
def test_stream_finally_close_error(mocker):
"""
Tests that an IOError during stream closure in the finally block is ignored,
covering the 'pass' statement in the finally logic.
"""
mock_stream = mock.Mock()
mock_stream.read.return_value = b"data"
# Raise IOError when stopping the stream at exit
mock_stream.stop_stream.side_effect = IOError("Cleanup failed")
mock_pyaudio_cls = mocker.patch("robot_interface.endpoints.audio_sender.pyaudio.PyAudio")
mock_pyaudio_instance = mock_pyaudio_cls.return_value
mock_pyaudio_instance.open.return_value = mock_stream
mock_state = mocker.patch("robot_interface.endpoints.audio_sender.state")
mock_state.active_event.is_set.return_value = True
mock_state.exit_event.is_set.side_effect = [False, False, True]
mock_zmq_context = mock.Mock()
sender = AudioSender(mock_zmq_context)
sender.socket = mock.Mock()
# Run
sender._stream()
# Assert: Should finish without raising exception despite the IOError in finally
assert mock_stream.stop_stream.called
def test_stream_recovery_failure(mocker):
"""
Tests the case where recovering from a read error (re-opening stream) also fails.
This ensures the outer try-except catches exceptions from the inner except block.
"""
mock_stream_initial = mock.Mock()
# Trigger the read error logic
mock_stream_initial.read.side_effect = IOError("Read failed")
mock_pyaudio_cls = mocker.patch("robot_interface.endpoints.audio_sender.pyaudio.PyAudio")
mock_pyaudio_instance = mock_pyaudio_cls.return_value
# First open works, Second open (recovery) fails fatally
mock_pyaudio_instance.open.side_effect = [
mock_stream_initial,
IOError("Recovery failed")
]
mock_state = mocker.patch("robot_interface.endpoints.audio_sender.state")
mock_state.active_event.is_set.return_value = True
mock_state.exit_event.is_set.return_value = False
mock_logger = mocker.patch("robot_interface.endpoints.audio_sender.logger")
mock_zmq_context = mock.Mock()
sender = AudioSender(mock_zmq_context)
sender.socket = mock.Mock()
sender._stream()
# Assert we hit the outer error log
mock_logger.error.assert_called()
def test_no_sending_if_speaking(mocker): def test_no_sending_if_speaking(mocker):
""" """

197
test/unit/test_video_sender.py
View File

@@ -10,95 +10,162 @@ import pytest
import zmq import zmq
from robot_interface.endpoints.video_sender import VideoSender from robot_interface.endpoints.video_sender import VideoSender
from robot_interface.state import state
from robot_interface.core.config import settings
@pytest.fixture @pytest.fixture
def zmq_context(): def zmq_context():
"""Provide a ZMQ context.""" """
yield zmq.Context() Yields a real ZMQ context for socket creation.
"""
context = zmq.Context()
yield context
context.term()
def test_init_defaults(zmq_context, mocker):
"""
Test initialization of the VideoSender.
"""
# We patch settings to ensure valid port access inside the class logic,
# although the default arg is evaluated at import time.
mocker.patch("robot_interface.endpoints.video_sender.settings")
def _patch_basics(mocker): mock_zmq = mock.Mock()
"""Common patches: prevent real threads, port binds, and state errors.""" sender = VideoSender(mock_zmq)
mocker.patch("robot_interface.endpoints.socket_base.zmq.Socket.bind")
mocker.patch("robot_interface.endpoints.video_sender.threading.Thread")
mocker.patch.object(state, "is_initialized", True)
# Verify socket type is PUB
assert sender.identifier == "video"
def _patch_exit_event(mocker): def test_start_no_qi_session(mocker):
"""Make exit_event stop the loop after one iteration.""" """
fake_event = mock.Mock() Test that the loop does not start if no Qi session is available.
fake_event.is_set.side_effect = [False, True] """
mocker.patch.object(state, "exit_event", fake_event) # Mock state to return None for qi_session
mock_state = mocker.patch("robot_interface.endpoints.video_sender.state")
mock_state.qi_session = None
mock_threading = mocker.patch("robot_interface.endpoints.video_sender.threading")
def test_no_qi_session(zmq_context, mocker): mock_zmq = mock.Mock()
"""Video loop should not start without a qi_session.""" sender = VideoSender(mock_zmq)
_patch_basics(mocker)
mocker.patch.object(state, "qi_session", None)
sender = VideoSender(zmq_context)
sender.start_video_rcv() sender.start_video_rcv()
assert not hasattr(sender, "thread") # Assertions
mock_threading.Thread.assert_not_called()
def test_start_success(mocker):
def test_video_streaming(zmq_context, mocker): """
"""VideoSender should send retrieved image data.""" Test successful startup of the video receiver thread.
_patch_basics(mocker) """
_patch_exit_event(mocker) # Mock the Qi Session and Service
mock_state = mocker.patch("robot_interface.endpoints.video_sender.state")
# Pepper's image buffer lives at index 6 mock_session = mock.Mock()
mocker.patch.object(settings.video_config, "image_buffer", 6) mock_state.qi_session = mock_session
mock_video_service = mock.Mock() mock_video_service = mock.Mock()
mock_video_service.getImageRemote.return_value = [None]*6 + ["fake_img"] mock_session.service.return_value = mock_video_service
mock_video_service.subscribeCamera.return_value = "test_subscriber_id"
fake_session = mock.Mock() # Mock Settings
fake_session.service.return_value = mock_video_service mock_settings = mocker.patch("robot_interface.endpoints.video_sender.settings")
mocker.patch.object(state, "qi_session", fake_session) mock_settings.video_config.camera_index = 0
mock_settings.video_config.resolution = 2
mock_settings.video_config.color_space = 11
mock_settings.video_config.fps = 30
mock_settings.video_config.stream_name = "test_stream"
mocker.patch.object( mock_threading = mocker.patch("robot_interface.endpoints.video_sender.threading")
fake_session.service("ALVideoDevice"),
"subscribeCamera",
return_value="stream_name"
)
sender = VideoSender(zmq_context)
send_socket = mock.Mock()
sender.socket.send = send_socket
# Run
mock_zmq = mock.Mock()
sender = VideoSender(mock_zmq)
sender.start_video_rcv() sender.start_video_rcv()
sender.video_rcv_loop(mock_video_service, "stream_name")
send_socket.assert_called_with("fake_img") # Assertions
mock_session.service.assert_called_with("ALVideoDevice")
mock_video_service.subscribeCamera.assert_called_with("test_stream", 0, 2, 11, 30)
mock_threading.Thread.assert_called_once()
# Verify arguments passed to the thread target
call_args = mock_threading.Thread.call_args[1]
assert call_args["target"] == sender.video_rcv_loop
assert call_args["args"] == (mock_video_service, "test_subscriber_id")
def test_video_receive_error(zmq_context, mocker): # Ensure thread was started
"""Errors retrieving images should not call send().""" mock_threading.Thread.return_value.start.assert_called_once()
_patch_basics(mocker)
_patch_exit_event(mocker)
mock_video_service = mock.Mock() def test_video_loop_happy_path(mocker):
mock_video_service.getImageRemote.side_effect = Exception("boom") """
Test the main loop: Wait -> Get Image -> Send -> Repeat/Exit.
"""
# Mock settings for image buffer index
mock_settings = mocker.patch("robot_interface.endpoints.video_sender.settings")
mock_settings.video_config.image_buffer = 6
fake_session = mock.Mock() # Mock Video Service to return a fake image structure
fake_session.service.return_value = mock_video_service # Standard NaoQi image is a list, binary data is usually at index 6
mocker.patch.object(state, "qi_session", fake_session) fake_image_data = b"binary_jpeg_data"
fake_image_list = [0] * 7
fake_image_list[6] = fake_image_data
mocker.patch.object( mock_service = mock.Mock()
fake_session.service("ALVideoDevice"), mock_service.getImageRemote.return_value = fake_image_list
"subscribeCamera",
return_value="stream_name"
)
sender = VideoSender(zmq_context) # Mock Events:
send_socket = mock.Mock() # exit_event: False (start), False (loop once), True (break)
sender.socket.send = send_socket mock_state = mocker.patch("robot_interface.endpoints.video_sender.state")
mock_state.exit_event.is_set.side_effect = [False, False, True]
sender.start_video_rcv() # Run
sender.video_rcv_loop(mock_video_service, "stream_name") mock_zmq = mock.Mock()
sender = VideoSender(mock_zmq)
sender.socket = mock.Mock() # Mock the socket to verify send
send_socket.assert_not_called() sender.video_rcv_loop(mock_service, "sub_id")
# Assertions
mock_state.active_event.wait.assert_called()
mock_service.getImageRemote.assert_called_with("sub_id")
sender.socket.send.assert_called_with(fake_image_data)
def test_video_loop_exit_during_wait(zmq_context, mocker):
"""
Test that the loop breaks immediately if exit_event is set while waiting.
"""
mock_service = mock.Mock()
mock_state = mocker.patch("robot_interface.endpoints.video_sender.state")
# 1. Loop check: False (enter loop)
# 2. Wait happens (mock returns instantly)
# 3. Post-wait check: True (break)
mock_state.exit_event.is_set.side_effect = [False, True]
mock_zqm = mock.Mock()
sender = VideoSender(mock_zqm)
sender.video_rcv_loop(mock_service, "sub_id")
# Assert we never tried to get an image
mock_service.getImageRemote.assert_not_called()
def test_video_loop_exception_handling(zmq_context, mocker):
"""
Test that exceptions during image retrieval are caught and logged,
and do not crash the thread.
"""
mock_settings = mocker.patch("robot_interface.endpoints.video_sender.settings")
mock_service = mock.Mock()
# First call raises Exception, Second call works (if we allowed it, but we exit)
mock_service.getImageRemote.side_effect = Exception("Camera disconnected")
mock_state = mocker.patch("robot_interface.endpoints.video_sender.state")
# Loop runs once then exits
mock_state.exit_event.is_set.side_effect = [False, False, True]
mock_zmq = mock.Mock()
sender = VideoSender(mock_zmq)
sender.socket = mock.Mock()
sender.video_rcv_loop(mock_service, "sub_id")
# Assertions
# Ensure loop didn't crash; it should have completed the iteration and checked exit_event
assert mock_state.exit_event.is_set.call_count >= 2