Twisted Coding Standard

Naming

Try to choose names which are both easy to remember and meaningful. Some silliness is OK at the module naming level (see twisted.spread ...) but when choosing class names, be as precise as possible.

Try to avoid overloaded terms. This rule is often broken, since it is incredibly difficult, as most normal words have already been taken by some other software. More importantly, try to avoid meaningless words. In particular, words like “handler” , “processor” , “engine” , “manager” and “component” don’t really indicate what something does, only that it does something .

Use American spelling in both names and docstrings. For compound technical terms such as ‘filesystem’, use a non-hyphenated spelling in both docstrings and code in order to avoid unnecessary capitalization.

Testing

Overview

Twisted development should always be test-driven . The complete test suite in the head of the SVN trunk is required to be passing on supported platforms at all times. Regressions in the test suite are addressed by reverting whatever revisions introduced them. For complete documentation about testing Twisted itself, refer to the Test Standard . What follows is intended to be a synopsis of the most important points.

Test Suite

The Twisted test suite is spread across many subpackages of the twisted package. Many older tests are in twisted.test . Others can be found at places such as twisted.web.test (for twisted.web tests) or twisted.internet.test (for twisted.internet tests). The latter arrangement, twisted.somepackage.test , is preferred for new tests except when a test module already exists in twisted.test .

Parts of the Twisted test suite may serve as good examples of how to write tests for Twisted or for Twisted-based libraries (newer parts of the test suite are generally better examples than older parts - check when the code you are looking at was written before you use it as an example of what you should write). The names of test modules should begin with test_ so that they are automatically discoverable by test runners such as Trial. Twisted’s unit tests are written using twisted.trial , an xUnit library which has been extensively customized for use in testing Twisted and Twisted-based libraries.

Implementation (ie, non-test) source files should begin with a test-case-name tag which gives the name of any test modules or packages which exercise them. This lets tools discover a subset of the entire test suite which they can run first to find tests which might be broken by a particular change.

It is strongly suggested that developers learn to use Emacs, and use the twisted-dev.el file included in twisted-emacs to bind the F9 key to “run unit tests” and bang on it frequently. Support for other editors is unavailable at this time but we would love to provide it.

To run the whole Twisted test without using emacs, use trial:

$ bin/trial twisted

To run an individual test module, such as twisted/mail/test/test_pop3.py , specify the module name:

$ bin/trial twisted.mail.test.test_pop3

To run the tests associated with a particular implementation file, such as twisted/mail/pop3.py , use the testmodule option:

$ bin/trial twisted/mail/pop3.py

All unit test methods should have docstrings specifying at a high level the intent of the test. That is, a description that users of the method would understand.

If you modify, or write a new, HOWTO, please read the Lore documentation to learn how to format the docs.

Whitespace

Indentation is 4 spaces per indent. Tabs are not allowed. It is preferred that every block appears on a new line, so that control structure indentation is always visible.

Lines are flowed at 79 columns. They must not have trailing whitespace. Long lines must be wrapped using implied line continuation inside parentheses; backslashes aren’t allowed. To handle long import lines, please repeat the import like this:

from very.long.package import foo, bar, baz
from very.long.package import qux, quux, quuux

Top-level classes and functions must be separated with 3 blank lines, and class-level functions with 2 blank lines. The control-L (i.e. ^L) form feed character must not be used.

Modules

Modules must be named in all lower-case, preferably short, single words. If a module name contains multiple words, they may be separated by underscores or not separated at all.

Modules must have a copyright message, a docstring and a reference to a test module that contains the bulk of its tests. Use this template:

new_module_template.py

# -*- test-case-name: <test module> -*-

# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.


"""
Docstring goes here.
"""


__all__ = []

In most cases, modules should contain more than one class, function, or method; if a module contains only one object, consider refactoring to include more related functionality in that module.

Depending on the situation, it is acceptable to have imports that look like this:

from twisted.internet.defer import Deferred

or like this:

from twisted.internet import defer

That is, modules should import modules or classes and functions , but not packages .

Wildcard import syntax may not be used by code in Twisted. These imports lead to code which is difficult to read and maintain by introducing complexity which strains human readers and automated tools alike. If you find yourself with many imports to make from a single module and wish to save typing, consider importing the module itself, rather than its attributes.

Relative imports (or sibling imports ) may not be used by code in Twisted. Relative imports allow certain circularities to be introduced which can ultimately lead to unimportable modules or duplicate instances of a single module. Relative imports also make the task of refactoring more difficult.

In case of local names conflicts due to import, use the as syntax, for example:

from twisted.trial import util as trial_util

The encoding must always be ASCII, so no coding cookie is necessary.

Packages

Package names should follow the same conventions as module names. All modules must be encapsulated in some package. Nested packages may be used to further organize related modules.

__init__.py must never contain anything other than a docstring and (optionally) an __all__ attribute. Packages are not modules and should be treated differently. This rule may be broken to preserve backwards compatibility if a module is made into a nested package as part of a refactoring.

If you wish to promote code from a module to a package, for example, to break a large module out into several smaller files, the accepted way to do this is to promote from within the module. For example,

# parent/
# --- __init__.py ---
import child

# --- child.py ---
import parent
class Foo:
    pass
parent.Foo = Foo

Every package should be added to the list in setup.py .

Packages must not depend circularly upon each other. To simplify maintaining this state, packages must also not import each other circularly. While this applies to all packages within Twisted, one twisted.python deserves particular attention, as it may not depend on any other Twisted package.

String Formatting Operations

When using string formatting operations like formatString % values you should always use a tuple if you’re using non-mapping values . This is to avoid unexpected behavior when you think you’re passing in a single value, but the value is unexpectedly a tuple, e.g.:

def foo(x):
    return "Hi %s\n" % x

The example shows you can pass in foo("foo") or foo(3) fine, but if you pass in foo((1,2)) , it raises a TypeError . You should use this instead:

def foo(x):
    return "Hi %s\n" % (x,)

Docstrings

Docstrings should always be used to describe the purpose of methods, functions, classes, and modules. Moreover, all methods, functions, classes, and modules must have docstrings. In addition to documenting the purpose of the object, the docstring must document all of parameters or attributes of the object.

When documenting a class with one or more attributes which are initialized directly from the value of a __init__ argument by the same name (or differing only in that the attribute is private), it is sufficient to document the __init__ parameter (in the __init__ docstring). For example:

class Ninja(object):
    """
    @ivar speed: See L{__init__}
    @ivar _stealth: See C{stealth} parameter of L{__init__}
    """
    def __init__(self, speed, stealth):
        """
        @param speed: The maximum rate at which this ninja can travel (m/s)
        @type speed: C{int} or C{float}

        @param stealth: This ninja's ability to avoid being noticed in its
            activities, as a percentage modifier.
        @type: C{int}
        """
        self.speed = speed
        self._stealth = stealth

It is not necessary to have a second copy of the documentation for the attribute in the class docstring, only a reference to the method (typically __init__ which does document the attribute’s meaning. Of course, if there is any interesting additional behavior about the attribute that does not apply to the __init__ argument, that behavior should be documented in the class docstring.

Docstrings are never to be used to provide semantic information about an object; this rule may be violated if the code in question is to be used in a system where this is a requirement (such as Zope).

Docstrings should be indented to the level of the code they are documenting.

Docstrings should be triple-quoted. The opening and the closing of the docstrings should be on a line by themselves. For example:

class Ninja(object):
    """
    A L{Ninja} is a warrior specializing in various unorthodox arts of war.
    """
    def attack(self, someone):
        """
        Attack C{someone} with this L{Ninja}'s shuriken.
        """

Docstrings should be written in epytext format; more documentation is available in the Epytext Markup Language documentation .

Additionally, to accommodate emacs users, single quotes of the type of the docstring’s triple-quote should be escaped. This will prevent font-lock from accidentally fontifying large portions of the file as a string.

For example,

def foo2bar(f):
    """
    Convert L{foo}s to L{bar}s.

    A function that should be used when you have a C{foo} but you want a
    C{bar}; note that this is a non-destructive operation.  If this method
    can't convert the C{foo} to a C{bar} it will raise a L{FooException}.

    @param f: C{foo}
    @type f: str

    For example::

        import wombat
        def sample(something):
            f = something.getFoo()
            f.doFooThing()
            b = wombat.foo2bar(f)
            b.doBarThing()
            return b

    """
    # Optionally, actual code can go here.

Comments

Comments marked with XXX or TODO must contain a reference to the associated ticket.

Versioning

The API documentation should be marked up with version information. When a new API is added the class should be marked with the epytext @since: field including the version number when the change was introduced, eg. @since: 8.1 .

Scripts

For each “script” , that is, a program you expect a Twisted user to run from the command-line, the following things must be done:

  1. Write a module in twisted.scripts which contains a callable global named run . This will be called by the command line part with no arguments (it will usually read sys.argv ). Feel free to write more functions or classes in this module, if you feel they are useful to others.

  2. Create a file which contains a shebang line for Python. For Twisted Core, this file should be placed in the bin/ directory; for example, bin/twistd . For sub-projects, it should be placed in bin/<subproject> ; for example, the key-generation tool for the Conch sub-project is in bin/conch/ckeygen .

    #!/usr/bin/env python
    

To make sure that the script is portable across different UNIX like operating systems we use the /usr/bin/env command. The env command allows you to run a program in a modified environment. That way you don’t have to search for a program via the PATH environment variable. This makes the script more portable but note that it is not a foolproof method. Always make sure that /usr/bin/env exists or use a softlink/symbolic link to point it to the correct path. Python’s distutils will rewrite the shebang line upon installation so this policy only covers the source files in version control.

  1. For core scripts, add this Twisted running-from-SVN header:

    import sys
    try:
        import _preamble
    except ImportError:
        sys.clear_exc()
    

    Or for sub-project scripts, add a modified version which also adjusts sys.path :

    import sys, os
    extra = os.path.dirname(os.path.dirname(sys.argv[0]))
    sys.path.insert(0, extra)
    try:
        import _preamble
    except ImportError:
        sys.clear_exc()
    sys.path.remove(extra)
    
  2. And end with:

    from twisted.scripts.yourmodule import run
    run()
    
  3. Write a manpage and add it to the man folder of a subproject’s doc folder. On Debian systems you can find a skeleton example of a manpage in /usr/share/doc/man-db/examples/manpage.example .

This will insure your program will work correctly for users of SVN, Windows releases and Debian packages.

Examples

For example scripts you expect a Twisted user to run from the command-line, add this Python shebang line at the top of the file:

#!/usr/bin/env python

Standard Library Extension Modules

When using the extension version of a module for which there is also a Python version, place the import statement inside a try/except block, and import the Python version if the import fails. This allows code to work on platforms where the extension version is not available. For example:

try:
    import cPickle as pickle
except ImportError:
    import pickle

Use the “as” syntax of the import statement as well, to set the name of the extension module to the name of the Python module.

Some modules don’t exist across all supported Python versions. For example, Python 2.3’s sets module was deprecated in Python 2.6 in favor of the set and frozenset builtins. twisted.python.compat would be the place to add set and frozenset implementations that work across Python versions.

Classes

Classes are to be named in mixed case, with the first letter capitalized; each word separated by having its first letter capitalized. Acronyms should be capitalized in their entirety. Class names should not be prefixed with the name of the module they are in. Examples of classes meeting this criteria:

  • twisted.spread.pb.ViewPoint
  • twisted.parser.patterns.Pattern

Examples of classes not meeting this criteria:

  • event.EventHandler
  • main.MainGadget

An effort should be made to prevent class names from clashing with each other between modules, to reduce the need for qualification when importing. For example, a Service subclass for Forums might be named twisted.forum.service.ForumService, and a Service subclass for Words might be twisted.words.service.WordsService. Since neither of these modules are volatile (see above) the classes may be imported directly into the user’s namespace and not cause confusion.

New-style Classes

Classes and instances in Python come in two flavors: old-style or classic, and new-style. Up to Python 2.1, old-style classes were the only flavour available to the user, new-style classes were introduced in Python 2.2 to unify classes and types. All classes added to Twisted should be written as new-style classes. If x is an instance of a new-style class, then type(x) is the same as x.__class__ .

Methods

Methods should be in mixed case, with the first letter lower case, each word separated by having its first letter capitalized. For example, someMethodName , method .

Sometimes, a class will dispatch to a specialized sort of method using its name; for example, twisted.reflect.Accessor. In those cases, the type of method should be a prefix in all lower-case with a trailing underscore, so method names will have an underscore in them. For example, get_someAttribute . Underscores in method names in twisted code are therefore expected to have some semantic associated with them.

Some methods, in particular addCallback and its cousins return self to allow for chaining calls. In this case, wrap the chain in parenthesis, and start each chained call on a separate line, for example:

return (foo()
        .addCallback(bar)
        .addCallback(thud)
        .addCallback(wozers))

Callback Arguments

There are several methods whose purpose is to help the user set up callback functions, for example Deferred.addCallback or the reactor’s callLater method. To make access to the callback as transparent as possible, most of these methods use **kwargs to capture arbitrary arguments that are destined for the user’s callback. This allows the call to the setup function to look very much like the eventual call to the target callback function.

In these methods, take care to not have other argument names that will “steal” the user’s callback’s arguments. When sensible, prefix these “internal” argument names with an underscore. For example, RemoteReference.callRemote is meant to be called like this:

myref.callRemote("addUser", "bob", "555-1212")

# on the remote end, the following method is invoked:
def addUser(name, phone):
    ...

where “addUser” is the remote method name. The user might also choose to call it with named parameters like this:

myref.callRemote("addUser", name="bob", phone="555-1212")

In this case, callRemote (and any code that uses the **kwargs syntax) must be careful to not use “name” , “phone” , or any other name that might overlap with a user-provided named parameter. Therefore, callRemote is implemented with the following signature:

class SomeClass(object):
    def callRemote(self, _name, *args, **kw):
        ...

Do whatever you can to reduce user confusion. It may also be appropriate to assert that the kwargs dictionary does not contain parameters with names that will eventually cause problems.

Special Methods

The augmented assignment protocol, defined by __iadd__ and other similarly named methods, can be used to allow objects to be modified in place or to rebind names if an object is immutable – both through use of the same operator. This can lead to confusing code, which in turn leads to buggy code. For this reason, methods of the augmented assignment protocol should not be used in Twisted.

Functions

Functions should be named similiarly to methods.

Functions or methods which are responding to events to complete a callback or errback should be named _cbMethodName or _ebMethodName , in order to distinguish them from normal methods.

Attributes

Attributes should be named similarly to functions and methods. Attributes should be named descriptively; attribute names like mode , type , and buf are generally discouraged. Instead, use displayMode , playerType , or inputBuffer .

Do not use Python’s “private” attribute syntax; prefix non-public attributes with a single leading underscore. Since several classes have the same name in Twisted, and they are distinguished by which package they come from, Python’s double-underscore name mangling will not work reliably in some cases. Also, name-mangled private variables are more difficult to address when unit testing or persisting a class.

An attribute (or function, method or class) should be considered private when one or more of the following conditions are true:

  • The attribute represents intermediate state which is not always kept up-to-date.
  • Referring to the contents of the attribute or otherwise maintaining a reference to it may cause resources to leak.
  • Assigning to the attribute will break internal assumptions.
  • The attribute is part of a known-to-be-sub-optimal interface and will certainly be removed in a future release.

Python 3

Twisted is being ported to Python 3. Be sure to follow the guidelines for Python 3 compatibility. Check on them often as they may change as lessons are learned during the porting effort.

Database

Database tables will be named with plural nouns.

Database columns will be named with underscores between words, all lower case, since most databases do not distinguish between case.

Any attribute, method argument, or method name that corresponds directly to a column in the database will be named exactly the same as that column, regardless of other coding conventions surrounding that circumstance.

All SQL keywords should be in upper case.

C Code

Wherever possible, C code should be optional, and the default python implementation should be maintained in tandem with it. C code should be strict ANSI C, and must build using GCC as well as Visual Studio for Windows, and really shouldn’t have any problems with other compilers either. Don’t do anything tricky.

C code should only be used for efficiency, not for binding to external libraries. If your particular code is not frequently run, write it in Python. If you require the use of an external library, develop a separate, external bindings package and make your twisted code depend on it.

Commit Messages

The commit messages are being distributed in a myriad of ways. Because of that, you need to observe a few simple rules when writing a commit message.

The first line of the message is being used as both the subject of the commit email and the announcement on #twisted. Therefore, it should be short (aim for < 80 characters) and descriptive – and must be able to stand alone (it is best if it is a complete sentence). The rest of the e-mail should be separated with hard line breaks into short lines (< 70 characters). This is free-format, so you can do whatever you like here.

Commit messages should be about what , not how : we can get how from SVN diff. Explain reasons for commits, and what they affect.

Each commit should be a single logical change, which is internally consistent. If you can’t summarize your changes in one short line, this is probably a sign that they should be broken into multiple checkins.

Source Control

Twisted currently uses Subversion for source control. All development should occur using branches; when a task is considered complete another Twisted developer may review it and if no problems are found, it may be merged into trunk. The Twisted wiki has a start . Branches must be used for major development. Branches should be managed using Combinator (but if you can manage them in some other way without anyone noticing, knock yourself out).

Certain features of Subversion should be avoided.

  • Do not set the svn:ignore property on any file or directory. What you wish to ignore, others may wish to examine. What others may wish you ignore, you may wish you examine. svn:ignore will affect everyone who uses the repository, and so it is not the right mechanism to express personal preferences.

    If you wish to ignore certain files use the global-ignores feature of ~/.subversion/config , for example:

    [miscellany]
    global-ignores = dropin.cache *.pyc *.pyo *.o *.lo *.la #*# .*.rej *.rej .*~
    

Fallback

In case of conventions not enforced in this document, the reference documents to use in fallback is PEP 8 for Python code and PEP 7 for C code. For example, the paragraph Whitespace in Expressions and Statements in PEP 8 describes what should be done in Twisted code.

Recommendations

These things aren’t necessarily standardizeable (in that code can’t be easily checked for compliance) but are a good idea to keep in mind while working on Twisted.

If you’re going to work on a fragment of the Twisted codebase, please consider finding a way that you would use such a fragment in daily life. Using a Twisted Web server on your website encourages you to actively maintain and improve your code, as the little everyday issues with using it become apparent.

Twisted is a big codebase! If you’re refactoring something, please make sure to recursively grep for the names of functions you’re changing. You may be surprised to learn where something is called. Especially if you are moving or renaming a function, class, method, or module, make sure that it won’t instantly break other code.