Those transitions have nothing to do with `Pen`, so migrate them to `PenState`. The hidden agenda is to remove `Pen` and integrate it into `PenDigitizer` so that we can tweak the events in each state to emulate firmware bugs. Signed-off-by: Benjamin Tissoires <bentiss@xxxxxxxxxx> --- tools/testing/selftests/hid/tests/test_tablet.py | 212 +++++++++++------------ 1 file changed, 106 insertions(+), 106 deletions(-) diff --git a/tools/testing/selftests/hid/tests/test_tablet.py b/tools/testing/selftests/hid/tests/test_tablet.py index cd9c1269afa6..18961758e4aa 100644 --- a/tools/testing/selftests/hid/tests/test_tablet.py +++ b/tools/testing/selftests/hid/tests/test_tablet.py @@ -132,104 +132,8 @@ class PenState(Enum): return tuple() - -class Pen(object): - def __init__(self, x, y): - self.x = x - self.y = y - self.tipswitch = False - self.tippressure = 15 - self.azimuth = 0 - self.inrange = False - self.width = 10 - self.height = 10 - self.barrelswitch = False - self.invert = False - self.eraser = False - self.x_tilt = 0 - self.y_tilt = 0 - self.twist = 0 - self._old_values = None - self.current_state = None - - def _restore(self): - if self._old_values is not None: - for i in [ - "x", - "y", - "tippressure", - "azimuth", - "width", - "height", - "twist", - "x_tilt", - "y_tilt", - ]: - setattr(self, i, getattr(self._old_values, i)) - - def move_to(self, state): - # fill in the previous values - if self.current_state == PenState.PEN_IS_OUT_OF_RANGE: - self._restore() - - print(f"\n *** pen is moving to {state} ***") - - if state == PenState.PEN_IS_OUT_OF_RANGE: - self._old_values = copy.copy(self) - self.x = 0 - self.y = 0 - self.tipswitch = False - self.tippressure = 0 - self.azimuth = 0 - self.inrange = False - self.width = 0 - self.height = 0 - self.invert = False - self.eraser = False - self.x_tilt = 0 - self.y_tilt = 0 - self.twist = 0 - elif state == PenState.PEN_IS_IN_RANGE: - self.tipswitch = False - self.inrange = True - self.invert = False - self.eraser = False - elif state == PenState.PEN_IS_IN_CONTACT: - self.tipswitch = True - self.inrange = True - self.invert = False - self.eraser = False - elif state == PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT: - self.tipswitch = False - self.inrange = True - self.invert = True - self.eraser = False - elif state == PenState.PEN_IS_ERASING: - self.tipswitch = False - self.inrange = True - self.invert = True - self.eraser = True - - self.current_state = state - - def __assert_axis(self, evdev, axis, value): - if ( - axis == libevdev.EV_KEY.BTN_TOOL_RUBBER - and evdev.value[libevdev.EV_KEY.BTN_TOOL_RUBBER] is None - ): - return - - assert ( - evdev.value[axis] == value - ), f"assert evdev.value[{axis}] ({evdev.value[axis]}) != {value}" - - def assert_expected_input_events(self, evdev): - assert evdev.value[libevdev.EV_ABS.ABS_X] == self.x - assert evdev.value[libevdev.EV_ABS.ABS_Y] == self.y - assert self.current_state == PenState.from_evdev(evdev) - @staticmethod - def legal_transitions() -> Dict[str, Tuple[PenState, ...]]: + def legal_transitions() -> Dict[str, Tuple["PenState", ...]]: """This is the first half of the Windows Pen Implementation state machine: we don't have Invert nor Erase bits, so just move in/out-of-range or proximity. https://docs.microsoft.com/en-us/windows-hardware/design/component-guidelines/windows-pen-states @@ -255,7 +159,7 @@ class Pen(object): } @staticmethod - def legal_transitions_with_invert() -> Dict[str, Tuple[PenState, ...]]: + def legal_transitions_with_invert() -> Dict[str, Tuple["PenState", ...]]: """This is the second half of the Windows Pen Implementation state machine: we now have Invert and Erase bits, so move in/out or proximity with the intend to erase. @@ -293,7 +197,7 @@ class Pen(object): } @staticmethod - def tolerated_transitions() -> Dict[str, Tuple[PenState, ...]]: + def tolerated_transitions() -> Dict[str, Tuple["PenState", ...]]: """This is not adhering to the Windows Pen Implementation state machine but we should expect the kernel to behave properly, mostly for historical reasons.""" @@ -306,7 +210,7 @@ class Pen(object): } @staticmethod - def tolerated_transitions_with_invert() -> Dict[str, Tuple[PenState, ...]]: + def tolerated_transitions_with_invert() -> Dict[str, Tuple["PenState", ...]]: """This is the second half of the Windows Pen Implementation state machine: we now have Invert and Erase bits, so move in/out or proximity with the intend to erase. @@ -321,7 +225,7 @@ class Pen(object): } @staticmethod - def broken_transitions() -> Dict[str, Tuple[PenState, ...]]: + def broken_transitions() -> Dict[str, Tuple["PenState", ...]]: """Those tests are definitely not part of the Windows specification. However, a half broken device might export those transitions. For example, a pen that has the eraser button might wobble between @@ -359,6 +263,102 @@ class Pen(object): } +class Pen(object): + def __init__(self, x, y): + self.x = x + self.y = y + self.tipswitch = False + self.tippressure = 15 + self.azimuth = 0 + self.inrange = False + self.width = 10 + self.height = 10 + self.barrelswitch = False + self.invert = False + self.eraser = False + self.x_tilt = 0 + self.y_tilt = 0 + self.twist = 0 + self._old_values = None + self.current_state = None + + def _restore(self): + if self._old_values is not None: + for i in [ + "x", + "y", + "tippressure", + "azimuth", + "width", + "height", + "twist", + "x_tilt", + "y_tilt", + ]: + setattr(self, i, getattr(self._old_values, i)) + + def move_to(self, state): + # fill in the previous values + if self.current_state == PenState.PEN_IS_OUT_OF_RANGE: + self._restore() + + print(f"\n *** pen is moving to {state} ***") + + if state == PenState.PEN_IS_OUT_OF_RANGE: + self._old_values = copy.copy(self) + self.x = 0 + self.y = 0 + self.tipswitch = False + self.tippressure = 0 + self.azimuth = 0 + self.inrange = False + self.width = 0 + self.height = 0 + self.invert = False + self.eraser = False + self.x_tilt = 0 + self.y_tilt = 0 + self.twist = 0 + elif state == PenState.PEN_IS_IN_RANGE: + self.tipswitch = False + self.inrange = True + self.invert = False + self.eraser = False + elif state == PenState.PEN_IS_IN_CONTACT: + self.tipswitch = True + self.inrange = True + self.invert = False + self.eraser = False + elif state == PenState.PEN_IS_IN_RANGE_WITH_ERASING_INTENT: + self.tipswitch = False + self.inrange = True + self.invert = True + self.eraser = False + elif state == PenState.PEN_IS_ERASING: + self.tipswitch = False + self.inrange = True + self.invert = True + self.eraser = True + + self.current_state = state + + def __assert_axis(self, evdev, axis, value): + if ( + axis == libevdev.EV_KEY.BTN_TOOL_RUBBER + and evdev.value[libevdev.EV_KEY.BTN_TOOL_RUBBER] is None + ): + return + + assert ( + evdev.value[axis] == value + ), f"assert evdev.value[{axis}] ({evdev.value[axis]}) != {value}" + + def assert_expected_input_events(self, evdev): + assert evdev.value[libevdev.EV_ABS.ABS_X] == self.x + assert evdev.value[libevdev.EV_ABS.ABS_Y] == self.y + assert self.current_state == PenState.from_evdev(evdev) + + class PenDigitizer(base.UHIDTestDevice): def __init__( self, @@ -486,7 +486,7 @@ class BaseTest: @pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"]) @pytest.mark.parametrize( "state_list", - [pytest.param(v, id=k) for k, v in Pen.legal_transitions().items()], + [pytest.param(v, id=k) for k, v in PenState.legal_transitions().items()], ) def test_valid_pen_states(self, state_list, scribble): """This is the first half of the Windows Pen Implementation state machine: @@ -498,7 +498,7 @@ class BaseTest: @pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"]) @pytest.mark.parametrize( "state_list", - [pytest.param(v, id=k) for k, v in Pen.tolerated_transitions().items()], + [pytest.param(v, id=k) for k, v in PenState.tolerated_transitions().items()], ) def test_tolerated_pen_states(self, state_list, scribble): """This is not adhering to the Windows Pen Implementation state machine @@ -515,7 +515,7 @@ class BaseTest: "state_list", [ pytest.param(v, id=k) - for k, v in Pen.legal_transitions_with_invert().items() + for k, v in PenState.legal_transitions_with_invert().items() ], ) def test_valid_invert_pen_states(self, state_list, scribble): @@ -535,7 +535,7 @@ class BaseTest: "state_list", [ pytest.param(v, id=k) - for k, v in Pen.tolerated_transitions_with_invert().items() + for k, v in PenState.tolerated_transitions_with_invert().items() ], ) def test_tolerated_invert_pen_states(self, state_list, scribble): @@ -553,7 +553,7 @@ class BaseTest: @pytest.mark.parametrize("scribble", [True, False], ids=["scribble", "static"]) @pytest.mark.parametrize( "state_list", - [pytest.param(v, id=k) for k, v in Pen.broken_transitions().items()], + [pytest.param(v, id=k) for k, v in PenState.broken_transitions().items()], ) def test_tolerated_broken_pen_states(self, state_list, scribble): """Those tests are definitely not part of the Windows specification. -- 2.41.0