def test_getSetRemoveUnusedValue():
    setting_property_provider = SettingPropertyProvider()
    setting_property_provider.removeUnusedValueChanged = MagicMock()

    setting_property_provider.setRemoveUnusedValue(False)
    assert setting_property_provider.removeUnusedValue == False
    assert setting_property_provider.removeUnusedValueChanged.emit.call_count == 1

    setting_property_provider.setRemoveUnusedValue(False)
    assert setting_property_provider.removeUnusedValueChanged.emit.call_count == 1
def test_setContainerStack(container_registry):
    setting_property_provider = SettingPropertyProvider()
    container_stack = ContainerStack("test!")

    setting_property_provider.containerStackChanged = MagicMock()
    setting_property_provider.setContainerStack(container_stack)
    assert setting_property_provider.containerStackChanged.emit.call_count == 1

    # Should not do anything (since its' the same stack)
    setting_property_provider.setContainerStack(container_stack)
    assert setting_property_provider.containerStackChanged.emit.call_count == 1

    with patch("UM.Settings.ContainerRegistry.ContainerRegistry.getInstance", MagicMock(return_value = container_registry)):
        setting_property_provider.setContainerStackId("test")
        # The registry doesn't have any containers, so this shouldn't have any effect.
        assert setting_property_provider.containerStackId == "test!"

        container_registry.addContainer(ContainerStack("test"))
        setting_property_provider.setContainerStackId("test")

        # Since it is added now, it should change.
        assert setting_property_provider.containerStackId == "test"
def test_valueChanges(container_registry):
    setting_property_provider = SettingPropertyProvider()

    # First create the basics; A container stack that will hold 2 instance containers and a single definition container
    container_stack = ContainerStack("test!")
    instance_container = InstanceContainer("data")
    second_instance_container = InstanceContainer("data2")
    definition_container = DefinitionContainer("foo")

    # Create a setting definition for our one and only setting!
    setting_definition = SettingDefinition("test_setting")
    setting_definition._deserialize_dict({"value": 10, "label": "blorp", "type": "float", "description": "nah", "maximum_value": 23, "maximum_value_warning": 21, "enabled": "test_setting != 20"})
    definition_container.addDefinition(setting_definition)

    # Make a single setting instance for our one and only setting.
    setting_instance = SettingInstance(setting_definition, instance_container)
    setting_instance.setProperty("value", 20)
    setting_instance.setProperty("enabled", False)
    instance_container.addInstance(setting_instance)

    # Make a setting instance that lives in our second instance_container
    setting_instance2 = SettingInstance(setting_definition, second_instance_container)
    second_instance_container.addInstance(setting_instance2)

    # Now that both containers are done, actually add them.
    container_stack.addContainer(definition_container)
    container_stack.addContainer(second_instance_container)
    container_stack.addContainer(instance_container)

    setting_property_provider.setContainerStack(container_stack)
    setting_property_provider.setKey("test_setting")
    assert setting_property_provider.key == "test_setting"

    assert setting_property_provider.getPropertyValue("value", 0) == 20

    setting_property_provider.setWatchedProperties(["enabled", "value", "validationState"])
    setting_property_provider._update()
    assert setting_property_provider.watchedProperties == ["enabled", "value", "validationState"]
    assert setting_property_provider.properties.value("enabled") == "False"
    assert setting_property_provider.properties.value("value") == "20"

    # Validator state is a special property that gets added based on the type and the value
    assert setting_property_provider.properties.value("validationState") == str(ValidatorState.Valid)

    # Set the property value to something that will trigger a warning
    setting_property_provider.setPropertyValue("value", 22)
    assert setting_property_provider.properties.value("validationState") == str(ValidatorState.MaximumWarning)
    assert setting_property_provider.getPropertyValue("value", 0) == 22
    # The setting doesn't exist in our second instance container, so this should be None
    assert setting_property_provider.getPropertyValue("value", 1) is None

    # Set the property value to something that will trigger an error
    setting_property_provider.setPropertyValue("value", 25)
    # The Qtimer that we use to prevent flooding doesn't work in tests, so tickle the change manually.
    setting_property_provider._update()

    assert setting_property_provider.properties.value("validationState") == str(ValidatorState.MaximumError)

    # We now ask for the second instance container to be targeted
    setting_property_provider.setStoreIndex(1)
    assert setting_property_provider.storeIndex == 1

    setting_property_provider.setPropertyValue("value", 2)
    setting_property_provider._update()
    # So now we should see a change in that instance container
    assert setting_property_provider.getPropertyValue("value", 1) == 2
    # But not if we ask the provider, because the container above it still has a 25 as value!
    assert setting_property_provider.getPropertyValue("value", 0) == 25

    assert setting_property_provider.stackLevels == [0, 1, 2]

    # We're asking for an index that doesn't exist.
    assert setting_property_provider.getPropertyValue("value", 2000) is None

    # The value is used, so the property must be true
    assert setting_property_provider.isValueUsed

    # Try to remove the setting from the container
    setting_property_provider.removeFromContainer(0)
    assert setting_property_provider.getPropertyValue("value", 0) is None

    # Ensure that a weird index doesn't break
    setting_property_provider.removeFromContainer(90001)
def test_containerStackIdNoStack():
    setting_property_provider = SettingPropertyProvider()
    assert setting_property_provider.containerStackId == ""
def test_isValueUsedNoStack():
    setting_property_provider = SettingPropertyProvider()
    assert setting_property_provider.isValueUsed == False
def test_stackLevelsNoStack():
    setting_property_provider = SettingPropertyProvider()
    assert setting_property_provider.stackLevels == [-1]
def test_setContainerStack(container_registry):
    setting_property_provider = SettingPropertyProvider()
    container_stack = ContainerStack("test!")

    setting_property_provider.containerStackChanged = MagicMock()
    setting_property_provider.setContainerStack(container_stack)
    assert setting_property_provider.containerStackChanged.emit.call_count == 1

    # Should not do anything (since its' the same stack)
    setting_property_provider.setContainerStack(container_stack)
    assert setting_property_provider.containerStackChanged.emit.call_count == 1
    assert setting_property_provider.containerStack == container_stack

    with patch("UM.Settings.ContainerRegistry.ContainerRegistry.getInstance", MagicMock(return_value = container_registry)):
        setting_property_provider.setContainerStackId("test")
        # The registry doesn't have any containers, so this shouldn't have any effect.
        assert setting_property_provider.containerStackId == "test!"

        container_registry.addContainer(ContainerStack("test"))
        setting_property_provider.setContainerStackId("test")

        # Since it is added now, it should change.
        assert setting_property_provider.containerStackId == "test"
def test_valueChanges(container_registry):
    setting_property_provider = SettingPropertyProvider()
    # First create the basics; A container stack that will hold 2 instance containers and a single definition container
    container_stack = ContainerStack("test!")
    instance_container = InstanceContainer("data")
    second_instance_container = InstanceContainer("data2")
    definition_container = DefinitionContainer("foo")

    # Create a setting definition for our one and only setting!
    setting_definition = SettingDefinition("test_setting")
    setting_definition._deserialize_dict({"value": 10, "label": "blorp", "type": "float", "description": "nah", "maximum_value": 23, "maximum_value_warning": 21})
    definition_container.addDefinition(setting_definition)

    # Make a single setting instance for our one and only setting.
    setting_instance = SettingInstance(setting_definition, instance_container)
    setting_instance.setProperty("value", 20)
    setting_instance.setProperty("enabled", False)
    instance_container.addInstance(setting_instance)

    # Make a setting instance that lives in our second instance_container
    setting_instance2 = SettingInstance(setting_definition, second_instance_container)
    second_instance_container.addInstance(setting_instance2)

    # Now that both containers are done, actually add them.
    container_stack.addContainer(definition_container)
    container_stack.addContainer(second_instance_container)
    container_stack.addContainer(instance_container)

    setting_property_provider.setContainerStack(container_stack)
    setting_property_provider.setKey("test_setting")

    assert setting_property_provider.getPropertyValue("value", 0) == 20

    setting_property_provider.setWatchedProperties(["enabled", "value", "validationState"])
    assert setting_property_provider.properties.value("enabled") == "False"
    assert setting_property_provider.properties.value("value") == "20"

    # Validator state is a special property that gets added based on the type and the value
    assert setting_property_provider.properties.value("validationState") == str(ValidatorState.Valid)

    # Set the property value to something that will trigger a warning
    setting_property_provider.setPropertyValue("value", 22)
    assert setting_property_provider.properties.value("validationState") == str(ValidatorState.MaximumWarning)
    assert setting_property_provider.getPropertyValue("value", 0) == 22
    # The setting doesn't exist in our second instance container, so this should be None
    assert setting_property_provider.getPropertyValue("value", 1) is None

    # Set the property value to something that will trigger an error
    setting_property_provider.setPropertyValue("value", 25)
    # The Qtimer that we use to prevent flooding doesn't work in tests, so tickle the change manually.
    setting_property_provider._update()

    assert setting_property_provider.properties.value("validationState") == str(ValidatorState.MaximumError)

    # We now ask for the second instance container to be targeted
    setting_property_provider.setStoreIndex(1)
    assert setting_property_provider.storeIndex == 1

    setting_property_provider.setPropertyValue("value", 2)
    setting_property_provider._update()
    # So now we should see a change in that instance container
    assert setting_property_provider.getPropertyValue("value", 1) == 2
    # But not if we ask the provider, because the container above it still has a 25 as value!
    assert setting_property_provider.getPropertyValue("value", 0) == 25

    assert setting_property_provider.stackLevels == [0, 1, 2]

    # We're asking for an index that doesn't exist.
    assert setting_property_provider.getPropertyValue("value", 2000) is None

    # The value is used, so the property must be true
    assert setting_property_provider.isValueUsed

    # Try to remove the setting from the container
    setting_property_provider.removeFromContainer(0)
    assert setting_property_provider.getPropertyValue("value", 0) is None

    # Ensure that a weird index doesn't break
    setting_property_provider.removeFromContainer(90001)