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- .. _internals-guide:
- ================================
- Contributors Guide to the Code
- ================================
- .. contents::
- :local:
- Philosophy
- ==========
- The API>RCP Precedence Rule
- ---------------------------
- - The API is more important than Readability
- - Readability is more important than Convention
- - Convention is more important than Performance
- - …unless the code is a proven hotspot.
- More important than anything else is the end-user API.
- Conventions must step aside, and any suffering is always alleviated
- if the end result is a better API.
- Conventions and Idioms Used
- ===========================
- Classes
- -------
- Naming
- ~~~~~~
- - Follows :pep:`8`.
- - Class names must be `CamelCase`.
- - but not if they are verbs, verbs shall be `lower_case`:
- .. code-block:: python
- # - test case for a class
- class TestMyClass(Case): # BAD
- pass
- class test_MyClass(Case): # GOOD
- pass
- # - test case for a function
- class TestMyFunction(Case): # BAD
- pass
- class test_my_function(Case): # GOOD
- pass
- # - "action" class (verb)
- class UpdateTwitterStatus(object): # BAD
- pass
- class update_twitter_status(object): # GOOD
- pass
- .. note::
- Sometimes it makes sense to have a class mask as a function,
- and there is precedence for this in the stdlib (e.g.
- :class:`~contextlib.contextmanager`). Celery examples include
- :class:`~celery.subtask`, :class:`~celery.chord`,
- ``inspect``, :class:`~kombu.utils.functional.promise` and more..
- - Factory functions and methods must be `CamelCase` (excluding verbs):
- .. code-block:: python
- class Celery(object):
- def consumer_factory(self): # BAD
- ...
- def Consumer(self): # GOOD
- ...
- Default values
- ~~~~~~~~~~~~~~
- Class attributes serve as default values for the instance,
- as this means that they can be set by either instantiation or inheritance.
- **Example:**
- .. code-block:: python
- class Producer(object):
- active = True
- serializer = 'json'
- def __init__(self, serializer=None):
- self.serializer = serializer or self.serializer
- # must check for None when value can be false-y
- self.active = active if active is not None else self.active
- A subclass can change the default value:
- .. code-block:: python
- TaskProducer(Producer):
- serializer = 'pickle'
- and the value can be set at instantiation:
- .. code-block:: python
- >>> producer = TaskProducer(serializer='msgpack')
- Exceptions
- ~~~~~~~~~~
- Custom exceptions raised by an objects methods and properties
- should be available as an attribute and documented in the
- method/property that throw.
- This way a user doesn't have to find out where to import the
- exception from, but rather use ``help(obj)`` and access
- the exception class from the instance directly.
- **Example**:
- .. code-block:: python
- class Empty(Exception):
- pass
- class Queue(object):
- Empty = Empty
- def get(self):
- """Get the next item from the queue.
- :raises Queue.Empty: if there are no more items left.
- """
- try:
- return self.queue.popleft()
- except IndexError:
- raise self.Empty()
- Composites
- ~~~~~~~~~~
- Similarly to exceptions, composite classes should be override-able by
- inheritance and/or instantiation. Common sense can be used when
- selecting what classes to include, but often it's better to add one
- too many: predicting what users need to override is hard (this has
- saved us from many a monkey patch).
- **Example**:
- .. code-block:: python
- class Worker(object):
- Consumer = Consumer
- def __init__(self, connection, consumer_cls=None):
- self.Consumer = consumer_cls or self.Consumer
- def do_work(self):
- with self.Consumer(self.connection) as consumer:
- self.connection.drain_events()
- Applications vs. "single mode"
- ==============================
- In the beginning Celery was developed for Django, simply because
- this enabled us get the project started quickly, while also having
- a large potential user base.
- In Django there is a global settings object, so multiple Django projects
- can't co-exist in the same process space, this later posed a problem
- for using Celery with frameworks that doesn't have this limitation.
- Therefore the app concept was introduced. When using apps you use 'celery'
- objects instead of importing things from celery submodules, this
- (unfortunately) also means that Celery essentially has two API's.
- Here's an example using Celery in single-mode:
- .. code-block:: python
- from celery import task
- from celery.task.control import inspect
- from .models import CeleryStats
- @task
- def write_stats_to_db():
- stats = inspect().stats(timeout=1)
- for node_name, reply in stats:
- CeleryStats.objects.update_stat(node_name, stats)
- and here's the same using Celery app objects:
- .. code-block:: python
- from .celery import celery
- from .models import CeleryStats
- @app.task
- def write_stats_to_db():
- stats = celery.control.inspect().stats(timeout=1)
- for node_name, reply in stats:
- CeleryStats.objects.update_stat(node_name, stats)
- In the example above the actual application instance is imported
- from a module in the project, this module could look something like this:
- .. code-block:: python
- from celery import Celery
- app = Celery(broker='amqp://')
- Module Overview
- ===============
- - celery.app
- This is the core of Celery: the entry-point for all functionality.
- - celery.loaders
- Every app must have a loader. The loader decides how configuration
- is read, what happens when the worker starts, when a task starts and ends,
- and so on.
- The loaders included are:
- - app
- Custom celery app instances uses this loader by default.
- - default
- "single-mode" uses this loader by default.
- Extension loaders also exist, like ``django-celery``, ``celery-pylons``
- and so on.
- - celery.worker
- This is the worker implementation.
- - celery.backends
- Task result backends live here.
- - celery.apps
- Major user applications: worker and beat.
- The command-line wrappers for these are in celery.bin (see below)
- - celery.bin
- Command-line applications.
- setup.py creates setuptools entrypoints for these.
- - celery.concurrency
- Execution pool implementations (prefork, eventlet, gevent, threads).
- - celery.db
- Database models for the SQLAlchemy database result backend.
- (should be moved into :mod:`celery.backends.database`)
- - celery.events
- Sending and consuming monitoring events, also includes curses monitor,
- event dumper and utilities to work with in-memory cluster state.
- - celery.execute.trace
- How tasks are executed and traced by the worker, and in eager mode.
- - celery.security
- Security related functionality, currently a serializer using
- cryptographic digests.
- - celery.task
- single-mode interface to creating tasks, and controlling workers.
- - celery.tests
- The unittest suite.
- - celery.utils
- Utility functions used by the celery code base.
- Much of it is there to be compatible across Python versions.
- - celery.contrib
- Additional public code that doesn't fit into any other namespace.
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