def test_temp_sensor_example(dut: Dut) -> None:
dut.expect_exact('Install temperature sensor')
dut.expect_exact('Enable temperature sensor')
dut.expect_exact('Read temperature')
temp_value = dut.expect(r'Temperature value (\d+\.\d+) .*', timeout=5)
# Because the example test only run in the normal temperature environment. So this assert range is meaningful
assert 0 < float(temp_value.group(1).decode('utf8')) < 50
temp_value = dut.expect(r'Temperature value (\d+\.\d+) .*', timeout=5)
assert 0 < float(temp_value.group(1).decode('utf8')) < 50
def test_flash_suspend_example(dut: Dut) -> None:
dut.expect_exact('found partition')
res = dut.expect(r'During Erase, ISR callback function\(in flash\) response time:\s+(\d+(\.\d{1,2})) us')
response_time = res.group(1).decode('utf8')
assert 0 <= float(response_time) < 40
res = dut.expect(r'During Erase, ISR callback function\(in iram\) response time:\s+(\d+(\.\d{1,2})) us')
response_time = res.group(1).decode('utf8')
assert 0 <= float(response_time) < 5
def test_gptimer_example(dut: Dut) -> None:
dut.expect_exact('install pcnt unit')
dut.expect_exact('set glitch filter')
dut.expect_exact('install pcnt channels')
dut.expect_exact('set edge and level actions for pcnt channels')
dut.expect_exact('add watch points and register callbacks')
dut.expect_exact('clear pcnt unit')
dut.expect_exact('start pcnt unit')
res = dut.expect(r'Pulse count: (\d+)')
count_val = res.group(1).decode('utf8')
assert -100 <= int(count_val) <= 100
def test_timer_group_example(dut: Dut): # type: ignore
dut.expect(r'Init timer with auto-reload', timeout=5)
res = dut.expect(r'Timer auto reloaded, count value in ISR: (\d+)',
timeout=5)
reloaded_count = res.group(1).decode('utf8')
assert 0 <= int(reloaded_count) < 10
alarm_increase_step = 500000
dut.expect(r'Init timer without auto-reload')
for i in range(1, 5):
res = dut.expect(r'Timer alarmed at (\d+)', timeout=3)
alarm_count = res.group(1).decode('utf8')
assert (i * alarm_increase_step -
10) < int(alarm_count) < (i * alarm_increase_step + 10)
def test_gptimer_example(dut: Dut) -> None:
dut.expect(r'Create timer handle', timeout=5)
dut.expect(r'Start timer, stop it at alarm event', timeout=5)
res = dut.expect(r'Timer stopped, count=(\d+)', timeout=30)
stopped_count = res.group(1).decode('utf8')
assert (1000000 - 10) < int(stopped_count) < (1000000 + 10)
dut.expect(r'Set count value')
dut.expect(r'Get count value')
res = dut.expect(r'Timer count value=(\d+)', timeout=5)
count_val = res.group(1).decode('utf8')
assert int(count_val) == 100
dut.expect(r'Start timer, auto-reload at alarm event', timeout=5)
res = dut.expect(r'Timer reloaded, count=(\d+)', timeout=5)
reloaded_count = res.group(1).decode('utf8')
assert 0 <= int(reloaded_count) < 10
dut.expect(r'Stop timer')
dut.expect(r'Update alarm value dynamically')
for i in range(1, 5):
res = dut.expect(r'Timer alarmed, count=(\d+)', timeout=5)
alarm_count = res.group(1).decode('utf8')
assert (i * 1000000 - 10) < int(alarm_count) < (i * 1000000 + 10)
dut.expect(r'Stop timer')
dut.expect(r'Delete timer')
def test_temp_sensor_example(dut: Dut) -> None:
dut.expect_exact('Initializing Temperature sensor')
dut.expect_exact('Temperature sensor started')
temp_value = dut.expect(r'Temperature out celsius (\d+\.\d+)', timeout=30)
# Because the example test only run in the normal temperature environment. So this assert range is meaningful
assert 0 < float(temp_value.group(1)) < 45