# Analog Outputs
def test_Ax_OUTPUT():
"""Test analog output pin functionality."""
- assert board.board_id == "GENERIC_AGNOSTIC_BOARD"
+ assert board.board_id == "OS_AGNOSTIC_BOARD"
pin_out = analogio.AnalogOut(board.Ax_OUTPUT)
# Test boundaries of setting the value and reading it back
def test_Ax_INPUT_RAND_INT():
"""Test random integer from pin Ax_INPUT_RAND_INT"""
- assert board.board_id == "GENERIC_AGNOSTIC_BOARD"
+ assert board.board_id == "OS_AGNOSTIC_BOARD"
pin_random = analogio.AnalogIn(board.Ax_INPUT_RAND_INT)
assert isinstance(pin_random.value, int)
def test_Ax_INPUT_FIXED_INT_PI():
"""Test fixed integer from pin Ax_INPUT_FIXED_INT_PI"""
- assert board.board_id == "GENERIC_AGNOSTIC_BOARD"
+ assert board.board_id == "OS_AGNOSTIC_BOARD"
pin_pi = analogio.AnalogIn(board.Ax_INPUT_FIXED_INT_PI)
assert pin_pi.value == 31415
def test_Ax_INPUT_WAVE_SINE():
"""Test sine wave from pin Ax_INPUT_WAVE_SINE"""
- assert board.board_id == "GENERIC_AGNOSTIC_BOARD"
+ assert board.board_id == "OS_AGNOSTIC_BOARD"
pin_sine_wave = analogio.AnalogIn(board.Ax_INPUT_WAVE_SINE)
# Run through the sine wave once
def test_Ax_INPUT_WAVE_SAW():
"""Test sawtooth wave from pin Ax_INPUT_WAVE_SAW"""
- assert board.board_id == "GENERIC_AGNOSTIC_BOARD"
+ assert board.board_id == "OS_AGNOSTIC_BOARD"
pin_saw_wave = analogio.AnalogIn(board.Ax_INPUT_WAVE_SAW)
# Run through the sine wave once
def test_Dx_OUTPUT_TRUE():
"""Test digital output pin functionality."""
- assert board.board_id == "GENERIC_AGNOSTIC_BOARD"
+ assert board.board_id == "OS_AGNOSTIC_BOARD"
pin_out = digitalio.DigitalInOut(board.Dx_OUTPUT)
pin_out.direction = digitalio.Direction.OUTPUT
# Test setting the value and reading it back
def test_Dx_INPUT_TRUE():
"""Test digital input pin Dx_INPUT_TRUE."""
- assert board.board_id == "GENERIC_AGNOSTIC_BOARD"
+ assert board.board_id == "OS_AGNOSTIC_BOARD"
pin_true = digitalio.DigitalInOut(board.Dx_INPUT_TRUE)
pin_true.direction = digitalio.Direction.INPUT
assert pin_true.value is True
def test_Dx_INPUT_TRUE_PULL_DOWN():
"""Test digital input pin Dx_INPUT_TRUE w/pull down."""
- assert board.board_id == "GENERIC_AGNOSTIC_BOARD"
+ assert board.board_id == "OS_AGNOSTIC_BOARD"
pin_true = digitalio.DigitalInOut(board.Dx_INPUT_TRUE)
pin_true.direction = digitalio.Direction.INPUT
assert pin_true.value is True
def test_Dx_INPUT_FALSE_PULL_UP():
"""Test digital input pin Dx_INPUT_FALSE w/pull up."""
- assert board.board_id == "GENERIC_AGNOSTIC_BOARD"
+ assert board.board_id == "OS_AGNOSTIC_BOARD"
pin_false = digitalio.DigitalInOut(board.Dx_INPUT_FALSE)
pin_false.direction = digitalio.Direction.INPUT
assert pin_false.value is False
def test_Dx_INPUT_FALSE():
"""Test digital input pin Dx_INPUT_FALSE"""
- assert board.board_id == "GENERIC_AGNOSTIC_BOARD"
+ assert board.board_id == "OS_AGNOSTIC_BOARD"
pin_false = digitalio.DigitalInOut(board.Dx_INPUT_FALSE)
pin_false.direction = digitalio.Direction.INPUT
assert pin_false.value is False
def test_Dx_INPUT_TOGGLE():
"""Test digital input pin Dx_INPUT_TOGGLE"""
- assert board.board_id == "GENERIC_AGNOSTIC_BOARD"
+ assert board.board_id == "OS_AGNOSTIC_BOARD"
pin_toggle = digitalio.DigitalInOut(board.Dx_INPUT_TOGGLE)
pin_toggle.direction = digitalio.Direction.INPUT
assert pin_toggle.value is True
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