Exemplo n.º 1
0
    def __new__(mcs, classname, bases, classdict):
        """
        Custom class creation for namespacing.

        Also register all subclasses.

        When the set or inherited namespace evaluates to ``None``, set the task namespace to
        whatever the currently declared namespace is.
        """
        cls = super(TaskMetaclass,
                    mcs).__new__(mcs, classname, bases,
                                 classdict)  # type: typing.Type[_BaseTask]

        # we are starting from "not clean" classdict ->
        # A. it's deserialization
        # B. it was calculated before
        if classdict.get("task_definition") is not None:
            return cls

        cls.task_definition = TaskDefinition.from_task_cls(task_class=cls,
                                                           classdict=classdict)

        # now we will assign all calculated parameters
        # so instead of ParameterFactory, we will have ParameterDefinition
        for k, v in six.iteritems(cls.task_definition.task_param_defs):
            setattr(cls, k, v)

        # every time we see new implementation, we want it to have an priority over old implementation
        # we need to switch to dict() and store history else where
        r = get_task_registry()
        r.register_task(cls)

        return cls
Exemplo n.º 2
0
    def test_task_definition_as_func(self):
        @task
        def a():
            pass

        td = TaskDefinition(a.task, {}, "td")
        assert td
Exemplo n.º 3
0
    def __new__(mcs, classname, bases, classdict):
        """
        Custom class creation for namespacing.

        Also register all subclasses.

        When the set or inherited namespace evaluates to ``None``, set the task namespace to
        whatever the currently declared namespace is.
        """
        cls = super(TaskMetaclass, mcs).__new__(
            mcs, classname, bases, classdict
        )  # type: typing.Type[_BaseTask]

        # we are starting from "not clean" classdict -> it's deserialization
        if classdict.get("task_definition") is not None:
            return cls

        td = cls.task_definition = TaskDefinition(cls, classdict)

        # now we will assign all params
        set_params = td.class_params if cls.is_tracking_mode else td.all_task_params
        for k, v in six.iteritems(set_params):
            setattr(cls, k, v)

        # every time we see new implementation, we want it to have an priority over old implementation
        # we need to switch to dict() and store history else where
        r = get_task_registry()
        r.register_task(cls)

        return cls
Exemplo n.º 4
0
    def test_task_definition_as_func(self):
        @task
        def a():
            pass

        td = TaskDefinition.from_task_cls(a.task, {})
        assert td
Exemplo n.º 5
0
def _build_inline_root_task(root_task_name):
    # create "root task" with default name as current process executable file name

    task_definition = TaskDefinition(
        task_passport=TaskPassport.from_module(
            TrackingTask.__module__),  # we need to fix that
        source_code=TaskSourceCode.from_callstack(),
    )

    root_task = TrackingTask(
        task_name=root_task_name,
        task_definition=task_definition,
        task_params=Parameters(source="inline_root_task", param_values=[]),
    )

    root_task.ctrl.task_repr.task_command_line = list2cmdline(sys.argv)
    root_task.ctrl.task_repr.task_functional_call = "bash_cmd(args=%s)" % repr(
        sys.argv)

    return root_task
Exemplo n.º 6
0
    def for_user_params(
            cls,
            task_definition_uid,  # type: UUID
            task_name,  # type: str
            user_params,  # type: Dict[str,Any]
            task_passport,  # type: TaskPassport
            source_code=None,  # type: TaskSourceCode
            result=True,  # type: Optional[bool]
    ):
        # type: (...) -> TrackingTask
        """
        Creating a customize task from the required params.
        Here we build the params from runtime values and use them to build the task definition.
        """
        param_values = []
        for key, value in six.iteritems(user_params):
            p = build_user_parameter_value(
                name=key,
                value=value,
                source=task_passport.full_task_family_short)
            param_values.append(p)

        if result:
            result_param_value = build_result_param(task_passport)
            param_values.append(result_param_value)

        task_params = Parameters(source=task_passport.full_task_family_short,
                                 param_values=param_values)

        task_definition = TaskDefinition(
            task_passport=task_passport,
            source_code=source_code,
            external_parameters=task_params,
            task_definition_uid=task_definition_uid,
        )

        return cls(
            task_name=task_name,
            task_definition=task_definition,
            task_params=task_params,
        )
Exemplo n.º 7
0
def _build_luigi_task_definition(luigi_task_cls):
    # type: (Type[luigi.Task]) -> Type[_LuigiTask]
    """
    build a classdict as needed in the creation of TaskMetaclass
    """
    task_family = luigi_task_cls.get_task_family()
    task_passport = TaskPassport.build_task_passport(
        task_family=task_family,
        task_namespace=luigi_task_cls.get_task_namespace(),
        cls_name=luigi_task_cls.__name__,
        module_name=luigi_task_cls.__module__,
    )
    task_source = TaskSourceCode.from_callable(luigi_task_cls)

    params_defs = extract_luigi_params(luigi_task_cls)
    td = TaskDefinition(task_passport=task_passport,
                        source_code=task_source,
                        classdict=params_defs)

    # we can't support outputs/inputs - they are dynamic per task
    # params_defs.update(_extract_targets_dedup(luigi_task_cls, attributes))

    return td
Exemplo n.º 8
0
 def _build_tracking_task_definition(self):
     return TaskDefinition.from_task_decorator(
         task_decorator=self.task_decorator)
Exemplo n.º 9
0
    def test_task_definition_as_class(self):
        class TdTask(Task):
            pass

        td = TaskDefinition(TdTask, {}, "td")
        assert td
Exemplo n.º 10
0
    def test_task_definition_as_class(self):
        class TdTask(Task):
            pass

        td = TaskDefinition.from_task_cls(TdTask, {})
        assert td