def test_Worker_DAQ___rate():
print_title("Worker_DAQ - INTERNAL_TIMER - DAQ rate")
def DAQ_function():
# Must return True when successful, False otherwise
reply = dev.fake_query_1()
dprint(" " * 50 + "%.1f Hz" % qdev.obtained_DAQ_rate_Hz)
return reply[-4:] == "0101"
app = create_QApplication()
dev = FakeDevice()
qdev = QDeviceIO(dev)
# fmt: off
qdev.create_worker_DAQ(DAQ_trigger=DAQ_TRIGGER.INTERNAL_TIMER,
DAQ_function=DAQ_function,
DAQ_interval_ms=10,
critical_not_alive_count=1,
debug=DEBUG)
# fmt: on
assert qdev.start() == True
# Simulate device runtime
start_time = time.perf_counter()
while time.perf_counter() - start_time < 1.51:
app.processEvents()
time.sleep(0.001) # Do not hog the CPU
tprint("About to quit")
app.processEvents()
assert qdev.quit() == True
app.quit()
assert 9 <= qdev.obtained_DAQ_interval_ms <= 11
assert 99 <= qdev.obtained_DAQ_rate_Hz <= 101
def test_Worker_jobs__quit_without_start():
print_title("Worker_jobs - quit without start")
app = create_QApplication()
qdev = QDeviceIO(FakeDevice())
qdev.create_worker_jobs()
tprint("About to quit")
app.processEvents()
assert qdev.quit() == True
app.quit()
def test_Worker_DAQ___CONTINUOUS(start_alive=True):
print_title("Worker_DAQ - CONTINUOUS" +
("" if start_alive else " - start dead"))
def DAQ_function():
# Must return True when successful, False otherwise
time.sleep(0.1) # Simulate blocking processing time on the device
reply = dev.fake_query_1()
return reply[-4:] == "0101"
app = create_QApplication()
dev = FakeDevice(start_alive=start_alive)
qdev = QDeviceIO(dev)
# fmt: off
qdev.create_worker_DAQ(
DAQ_trigger=DAQ_TRIGGER.CONTINUOUS,
DAQ_function=DAQ_function,
critical_not_alive_count=1,
debug=DEBUG,
)
# fmt: on
qdev.signal_DAQ_updated.connect(process_DAQ_updated)
qdev.signal_DAQ_paused.connect(process_DAQ_paused)
assert qdev.start() == start_alive
# Immediately fire a call to test if the worker is ready for it
qdev.unpause_DAQ()
# Simulate device runtime
start_time = time.perf_counter()
QtCore.QTimer.singleShot(300, qdev.pause_DAQ)
QtCore.QTimer.singleShot(600, qdev.unpause_DAQ)
QtCore.QTimer.singleShot(900, qdev.pause_DAQ)
QtCore.QTimer.singleShot(1200, qdev.unpause_DAQ)
while time.perf_counter() - start_time < 1.6:
app.processEvents()
if dev.count_commands == 12:
break
time.sleep(0.001) # Do not hog the CPU
tprint("About to quit")
app.processEvents()
assert qdev.quit() == True
app.quit()
if start_alive:
assert dev.count_commands >= 10
assert dev.count_replies >= 10
assert (cnt_DAQ_updated >= 9
) # Last signal is not always received before thread is quit
assert cnt_DAQ_paused == 3
def test_Worker_DAQ___lose_connection():
print_title("Worker_DAQ - INTERNAL_TIMER - lose connection")
def DAQ_function():
# Must return True when successful, False otherwise
if qdev.update_counter_DAQ == 10:
dev.is_alive = False
reply = dev.fake_query_1()
return reply[-4:] == "0101"
# NOTE: The global 'go' mechanism used here is a quick and dirty way to
# pytest. In production, it should be implemented by an boolean external
# class member.
global go
go = True
@QtCore.pyqtSlot()
def process_connection_lost():
tprint("---> received: connection_lost")
global go
go = False
app = create_QApplication()
dev = FakeDevice()
# Forcefully remove members as extra test
del dev.name
del dev.is_alive
qdev = QDeviceIO(dev)
# fmt: off
qdev.create_worker_DAQ(DAQ_trigger=DAQ_TRIGGER.INTERNAL_TIMER,
DAQ_function=DAQ_function,
DAQ_interval_ms=20,
critical_not_alive_count=3,
debug=DEBUG)
# fmt: on
qdev.create_worker_jobs(debug=DEBUG)
qdev.signal_connection_lost.connect(process_connection_lost)
assert qdev.start() == True
# Simulate device runtime
while go:
app.processEvents()
time.sleep(0.001) # Do not hog the CPU
tprint("About to quit")
app.processEvents()
assert qdev.quit() == True
assert qdev.quit() == True # Twice, to check for msg 'already closed'.
app.quit()
def test_Worker_jobs__jobs_function():
print_title("Worker_jobs - jobs_function")
def jobs_function(func, args):
if func == "special command":
dev.fake_query_2()
else:
# Default job handling where, e.g.
# func = self.dev.write
# args = ("toggle LED",)
func(*args)
app = create_QApplication()
dev = FakeDevice()
qdev = QDeviceIO(dev)
qdev.create_worker_jobs(
jobs_function=jobs_function,
debug=DEBUG,
)
qdev.signal_jobs_updated.connect(process_jobs_updated)
assert qdev.start() == True
# Immediately fire a call to test if the worker is ready for it
qdev.send(dev.fake_query_2)
# fmt: off
# Simulate device runtime
start_time = time.perf_counter()
QtCore.QTimer.singleShot(100, lambda: qdev.send("special command"))
QtCore.QTimer.singleShot(
200, lambda: qdev.send(dev.fake_command_with_argument, 0))
# fmt: on
while time.perf_counter() - start_time < 0.5:
app.processEvents()
time.sleep(0.001) # Do not hog the CPU
tprint("About to quit")
app.processEvents()
assert qdev.quit() == True
app.quit()
assert dev.count_commands == 3
assert dev.count_replies == 2
assert cnt_jobs_updated == 3
def test_Worker_jobs(start_alive=True):
print_title("Worker_jobs" + ("" if start_alive else " - start dead"))
app = create_QApplication()
dev = FakeDevice(start_alive=start_alive)
qdev = QDeviceIO(dev)
qdev.create_worker_jobs(debug=DEBUG)
qdev.signal_jobs_updated.connect(process_jobs_updated)
assert qdev.start() == start_alive
# Immediately fire a call to test if the worker is ready for it
qdev.add_to_jobs_queue(dev.fake_query_2)
# fmt: off
# Simulate device runtime
start_time = time.perf_counter()
QtCore.QTimer.singleShot(100, qdev.process_jobs_queue)
QtCore.QTimer.singleShot(200, lambda: qdev.send(dev.fake_query_2))
QtCore.QTimer.singleShot(
300, lambda: qdev.add_to_jobs_queue(dev.fake_command_with_argument, 0))
QtCore.QTimer.singleShot(
400, lambda: qdev.add_to_jobs_queue(dev.fake_command_with_argument, 0))
QtCore.QTimer.singleShot(
500, lambda: qdev.add_to_jobs_queue(dev.fake_command_with_argument, 0))
QtCore.QTimer.singleShot(600, qdev.process_jobs_queue)
QtCore.QTimer.singleShot(
700, lambda: qdev.send("trigger_illegal_function_call_error"))
# fmt: on
while time.perf_counter() - start_time < 1:
app.processEvents()
time.sleep(0.001) # Do not hog the CPU
tprint("About to quit")
app.processEvents()
assert qdev.quit() == True
app.quit()
if start_alive:
assert dev.count_commands == 5
assert dev.count_replies == 2
assert cnt_jobs_updated == 4
def test_Worker_DAQ___SINGLE_SHOT_WAKE_UP(start_alive=True):
print_title("Worker_DAQ - SINGLE_SHOT_WAKE_UP" +
("" if start_alive else " - start dead"))
def DAQ_function():
# Must return True when successful, False otherwise
reply = dev.fake_query_1()
return reply[-4:] == "0101"
app = create_QApplication()
dev = FakeDevice(start_alive=start_alive)
qdev = QDeviceIO(dev)
# fmt: off
qdev.create_worker_DAQ(DAQ_trigger=DAQ_TRIGGER.SINGLE_SHOT_WAKE_UP,
DAQ_function=DAQ_function,
critical_not_alive_count=1,
debug=DEBUG)
# fmt: on
qdev.signal_DAQ_updated.connect(process_DAQ_updated)
assert qdev.start() == start_alive
# Immediately fire a call to test if the worker is ready for it
qdev.wake_up_DAQ()
# Simulate device runtime
start_time = time.perf_counter()
QtCore.QTimer.singleShot(300, qdev.wake_up_DAQ)
QtCore.QTimer.singleShot(600, qdev.wake_up_DAQ)
while time.perf_counter() - start_time < 1:
app.processEvents()
time.sleep(0.001) # Do not hog the CPU
tprint("About to quit")
app.processEvents()
assert qdev.quit() == True
app.quit()
if start_alive:
assert dev.count_commands == 3
assert dev.count_replies == 3
assert cnt_DAQ_updated == 3
def test_Worker_DAQ___INTERNAL_TIMER(start_alive=True):
print_title("Worker_DAQ - INTERNAL_TIMER" +
("" if start_alive else " - start dead"))
def DAQ_function():
# Must return True when successful, False otherwise
reply = dev.fake_query_1()
return reply[-4:] == "0101"
app = create_QApplication()
dev = FakeDevice(start_alive=start_alive)
qdev = QDeviceIO(dev)
# fmt: off
qdev.create_worker_DAQ(DAQ_trigger=DAQ_TRIGGER.INTERNAL_TIMER,
DAQ_function=DAQ_function,
DAQ_interval_ms=100,
critical_not_alive_count=10,
debug=DEBUG)
# fmt: on
qdev.signal_DAQ_updated.connect(process_DAQ_updated)
assert qdev.start() == start_alive
# Simulate device runtime
start_time = time.perf_counter()
while time.perf_counter() - start_time < 1:
app.processEvents()
if dev.count_commands == 3:
break
time.sleep(0.001) # Do not hog the CPU
tprint("About to quit")
app.processEvents()
assert qdev.quit() == True
app.quit()
if start_alive:
assert dev.count_commands >= 3
assert dev.count_replies >= 3
assert (cnt_DAQ_updated >= 2
) # Last signal is not always received before thread is quit
def test_Worker_DAQ___ILLEGAL_DAQ_FUNCTION():
print_title("Worker_DAQ - ILLEGAL_DAQ_FUNCTION")
def DAQ_function():
# Must return True when successful, False otherwise
if qdev.update_counter_DAQ == 2:
0 / 0
else:
reply = dev.fake_query_1()
return reply[-4:] == "0101"
app = create_QApplication()
dev = FakeDevice()
qdev = QDeviceIO(dev)
# fmt: off
qdev.create_worker_DAQ(DAQ_trigger=DAQ_TRIGGER.INTERNAL_TIMER,
DAQ_function=DAQ_function,
DAQ_interval_ms=100,
debug=DEBUG)
# fmt: on
qdev.signal_DAQ_updated.connect(process_DAQ_updated)
assert qdev.start() == True
# Simulate device runtime
start_time = time.perf_counter()
while time.perf_counter() - start_time < 1:
app.processEvents()
if dev.count_commands == 3:
break
time.sleep(0.001) # Do not hog the CPU
tprint("About to quit")
app.processEvents()
assert qdev.quit() == True
app.quit()