Ejemplo n.º 1
0
class StateAdjustment(StateBase):
    calculate_transmission = TypedParameter(StateCalculateTransmission, validator_sub_state)
    normalize_to_monitor = TypedParameter(StateNormalizeToMonitor, validator_sub_state)
    wavelength_and_pixel_adjustment = TypedParameter(StateWavelengthAndPixelAdjustment, validator_sub_state)
    wide_angle_correction = BoolParameter()
    show_transmission = BoolParameter()

    def __init__(self):
        super(StateAdjustment, self).__init__()
        self.wide_angle_correction = False
        self.show_transmission = False

    def validate(self):
        is_invalid = {}

        # Calculate transmission
        if not self.calculate_transmission:
            is_invalid.update({"StateAdjustment": "The StateCalculateTransmission object is missing."})
        if self.calculate_transmission:
            try:
                self.calculate_transmission.validate()
            except ValueError as e:
                is_invalid.update({"StateAdjustment": "The sub-CalculateTransmission state is invalid,"
                                                      " see here {0}".format(str(e))})

        # Normalize to monitor
        if not self.normalize_to_monitor:
            is_invalid.update({"StateAdjustment": "The StateNormalizeToMonitor object is missing."})
        if self.normalize_to_monitor:
            try:
                self.normalize_to_monitor.validate()
            except ValueError as e:
                is_invalid.update({"StateAdjustment": "The sub-NormalizeToMonitor state is invalid,"
                                                      " see here {0}".format(str(e))})

        # Wavelength and pixel adjustment
        if not self.wavelength_and_pixel_adjustment:
            is_invalid.update({"StateAdjustment": "The StateWavelengthAndPixelAdjustment object is missing."})
        if self.wavelength_and_pixel_adjustment:
            try:
                self.wavelength_and_pixel_adjustment.validate()
            except ValueError as e:
                is_invalid.update({"StateAdjustment": "The sub-WavelengthAndPixelAdjustment state is invalid,"
                                                      " see here {0}".format(str(e))})
        if is_invalid:
            raise ValueError("StateAdjustment: The provided inputs are illegal. "
                             "Please see: {0}".format(json.dumps(is_invalid)))
Ejemplo n.º 2
0
class ComplexState(StateBase):
    float_parameter = FloatParameter()
    positive_float_with_none_parameter = PositiveFloatWithNoneParameter()
    sub_state_1 = TypedParameter(SimpleState, validator_sub_state)
    dict_parameter = DictParameter()

    def __init__(self):
        super(ComplexState, self).__init__()
        self.float_parameter = 23.
        self.positive_float_with_none_parameter = 234.
        self.sub_state_1 = SimpleState()
        self.dict_parameter = {"A": SimpleState(), "B": SimpleState()}

    def validate(self):
        pass
Ejemplo n.º 3
0
class SimpleState(StateBase):
    string_parameter = StringParameter()
    bool_parameter = BoolParameter()
    float_parameter = FloatParameter()
    positive_float_parameter = PositiveFloatParameter()
    positive_integer_parameter = PositiveIntegerParameter()
    dict_parameter = DictParameter()
    float_with_none_parameter = FloatWithNoneParameter()
    positive_float_with_none_parameter = PositiveFloatWithNoneParameter()
    float_list_parameter = FloatListParameter()
    string_list_parameter = StringListParameter()
    positive_integer_list_parameter = PositiveIntegerListParameter()
    class_type_parameter = ClassTypeParameter(TestType)
    class_type_list_parameter = ClassTypeListParameter(TestType)

    sub_state_very_simple = TypedParameter(VerySimpleState,
                                           validator_sub_state)

    def __init__(self):
        super(SimpleState, self).__init__()
        self.string_parameter = "String_in_SimpleState"
        self.bool_parameter = False
        # We explicitly leave out the float_parameter
        self.positive_float_parameter = 1.
        self.positive_integer_parameter = 6
        self.dict_parameter = {"1": 123, "2": "test"}
        self.float_with_none_parameter = 325.
        # We expliclty leave out the positive_float_with_none_parameter
        self.float_list_parameter = [123., 234.]
        self.string_list_parameter = ["test1", "test2"]
        self.positive_integer_list_parameter = [1, 2, 3]
        self.class_type_parameter = TestType.TypeA
        self.class_type_list_parameter = [TestType.TypeA, TestType.TypeB]
        self.sub_state_very_simple = VerySimpleState()

    def validate(self):
        pass
Ejemplo n.º 4
0
class State(StateBase):
    data = TypedParameter(StateData, validator_sub_state)
    move = TypedParameter(StateMove, validator_sub_state)
    reduction = TypedParameter(StateReductionMode, validator_sub_state)
    slice = TypedParameter(StateSliceEvent, validator_sub_state)
    mask = TypedParameter(StateMask, validator_sub_state)
    wavelength = TypedParameter(StateWavelength, validator_sub_state)
    save = TypedParameter(StateSave, validator_sub_state)
    scale = TypedParameter(StateScale, validator_sub_state)
    adjustment = TypedParameter(StateAdjustment, validator_sub_state)
    convert_to_q = TypedParameter(StateConvertToQ, validator_sub_state)
    compatibility = TypedParameter(StateCompatibility, validator_sub_state)

    def __init__(self):
        super(State, self).__init__()

    def validate(self):
        is_invalid = dict()

        # Make sure that the substates are contained
        if not self.data:
            is_invalid.update("State: The state object needs to include a StateData object.")
        if not self.move:
            is_invalid.update("State: The state object needs to include a StateMove object.")
        if not self.reduction:
            is_invalid.update("State: The state object needs to include a StateReduction object.")
        if not self.slice:
            is_invalid.update("State: The state object needs to include a StateSliceEvent object.")
        if not self.mask:
            is_invalid.update("State: The state object needs to include a StateMask object.")
        if not self.wavelength:
            is_invalid.update("State: The state object needs to include a StateWavelength object.")
        if not self.save:
            is_invalid.update("State: The state object needs to include a StateSave object.")
        if not self.scale:
            is_invalid.update("State: The state object needs to include a StateScale object.")
        if not self.adjustment:
            is_invalid.update("State: The state object needs to include a StateAdjustment object.")
        if not self.convert_to_q:
            is_invalid.update("State: The state object needs to include a StateConvertToQ object.")

        # We don't enforce a compatibility mode, we just create one if it does not exist
        if not self.compatibility:
            if self.data:
                self.compatibility = get_compatibility_builder(self.data).build()

        if is_invalid:
            raise ValueError("State: There is an issue with your in put. See: {0}".format(json.dumps(is_invalid)))

        # Check the attributes themselves
        is_invalid = {}
        for descriptor_name, descriptor_object in inspect.getmembers(type(self)):
            if inspect.isdatadescriptor(descriptor_object) and isinstance(descriptor_object, TypedParameter):
                try:
                    attr = getattr(self, descriptor_name)
                    attr.validate()
                except ValueError as err:
                    is_invalid.update({descriptor_name: pickle.dumps(str(err))})

        if is_invalid:
            raise ValueError("State: There is an issue with your in put. See: {0}".format(json.dumps(is_invalid)))