Six: Python 2 and 3 Compatibility Library¶
Six provides simple utilities for wrapping over differences between Python 2 and Python 3.
Six can be downloaded on PyPi. Its bug tracker and code hosting is on BitBucket.
The name, “six”, comes from the fact that 2*3 equals 6. Why not addition? Multiplication is more powerful, and, anyway, “five” has already been snatched away.
Indices and tables¶
Package contents¶
- six.PY3¶
A boolean indicating if the code is running on Python 3.
Constants¶
Six provides constants that may differ between Python versions. Ones ending
_types are mostly useful as the second argument to isinstance or
issubclass.
- six.class_types¶
Possible class types. In Python 2, this encompasses old-style and new-style classes. In Python 3, this is just new-styles.
- six.integer_types¶
Possible integer types. In Python 2, this is
py2:long()andpy2:int(), and in Python 3, justpy3:int().
- six.string_types¶
Possible types for text data. This is
py2:basestring()in Python 2 andpy3:str()in Python 3.
- six.text_type¶
Type for representing textual data in Unicode. This is
py2:unicode()in Python 2 andpy3:str()in Python 3.
- six.binary_type¶
Type for representing binary data. This is
py2:str()in Python 2 andpy3:bytes()in Python 3.
- six.MAXSIZE¶
The maximum size of a container.
Here’s example usage of the module:
import six
def dispatch_types(value):
if isinstance(value, six.integer_types):
handle_integer(value)
elif isinstance(value, six.class_types):
handle_class(value)
elif isinstance(value, six.string_types):
handle_string(value)
Object model compatibility¶
Python 3 renamed the attributes of several intepreter data structures. The
following accessors are available. Note that the recommended way to inspect
functions and methods is the stdlib inspect module.
- six.get_unbound_function(meth)¶
Get the function out of unbound method meth. In Python 3, unbound methods don’t exist, so this function just returns meth unchanged. Example usage:
from six import get_unbound_function class X(object): def method(self): pass method_function = get_unbound_function(X.method)
- six.get_method_function(meth)¶
Get the function out of method object meth.
- six.get_method_self(meth)¶
Get the
selfof bound method meth.
- six.get_function_code(func)¶
Get the code object associated with func.
- six.get_function_defaults(func)¶
Get the defaults tuple associated with func.
- six.advance_iterator(it)¶
Get the next item of iterator it.
StopIterationis raised if the iterator is exhausted. This is a replacement for callingit.next()in Python 2 andnext(it)in Python 3.
- six.callable(obj)¶
Check if obj can be called.
Syntax compatibility¶
These functions smooth over operations which have different syntaxes between Python 2 and 3.
- six.exec_(code, globals=None, locals=None)¶
Execute code in the scope of globals and locals. code can be a string or a code object. If globals or locals is not given, they will default to the scope of the caller. If just globals is given, it will also be used as locals.
- six.print_(*args, *, file=sys.stdout, end="\n", sep=" ")¶
Print args into file. Each argument will be separated with sep and end will be written to the file at the last.
Note
In Python 2, this function imitates Python 3’s
print()by not having softspace support. If you don’t know what that is, you’re probably ok. :)
- six.reraise(exc_type, exc_value, exc_traceback=None)¶
Reraise an exception, possibly with a different traceback. In the simple case,
reraise(*sys.exc_info())with an active exception (in an except block) reraises the current exception with the last traceback. A different traceback can be specified with the exc_traceback parameter.
- six.with_metaclass(metaclass, base=object)¶
Create a new class with base class base and metaclass metaclass. This is designed to be used in class declarations like this:
from six import with_metaclass class Meta(type): pass class Base(object): pass class MyClass(with_metaclass(Meta, Base)): pass
Binary and text data¶
Python 3 enforces the distinction between far more rigoriously than does Python 2; binary data cannot be automatically coerced text data. six provides the several functions to assist in classifying string data in all Python versions.
- six.b(data)¶
A “fake” bytes literal. data should always be a normal string literal. In Python 2,
b()returns a 8-bit string. In Python 3, data is encoded with the latin-1 encoding to bytes.
- six.u(text)¶
A “fake” unicode literal. text should always be a normal string literal. In Python 2,
u()returns unicode, and in Python 3, a string.
- six.StringIO¶
This is an fake file object for textual data. It’s an alias for
py2:StringIO.StringIOin Python 2 andio.StringIOin Python 3.
- six.BytesIO¶
This is a fake file object for binary data. In Python 2, it’s an alias for
py2:StringIO.StringIO, but in Python 3, it’s an alias forio.BytesIO.
Renamed modules and attributes compatibility¶
Python 3 reorganized the standard library and moved several functions to
different modules. Six provides a consistent interface to them through the fake
six.moves module. For example, to load the module for parsing HTML on
Python 2 or 3, write:
from six.moves import html_parser
Similarly, to get the function to reload modules, which was moved from the
builtin module to the imp module, use:
from six.moves import reload_module
For the most part, six.moves aliases are the names of the modules in
Python 3. When the new Python 3 name is a package, the components of the name
are separated by underscores. For example, html.parser becomes
html_parser. In some cases where several modules have been combined, the
Python 2 name is retained. This is so the appropiate modules can be found when
running on Python 2. For example, BaseHTTPServer which is in
http.server in Python 3 is aliased as BaseHTTPServer.
Some modules which had two implementations have been merged in Python 3. For
example, cPickle no longer exists in Python 3. It’s been merged with
pickle. In these cases, fetching the fast version will load the fast one on
Python 2 and the merged module in Python 3.
Note
The urllib, py2:urllib2, and py2:urlparse modules
have been combined in the urllib package in Python 3.
six.moves doesn’t not support their renaming because their members
have been mixed across several modules in that package.
Supported renames:
Name |
Python 2 name |
Python 3 name |
|---|---|---|
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Advanced - Customizing renames¶
It is possible to add additional names to the six.moves namespace.
- six.add_move(item)¶
Add item to the
six.movesmapping. item should be aMovedAttributeorMovedModuleinstance.
Instances of the following classes can be passed to add_move(). Neither
have any public members.
- class six.MovedModule(name, old_mod, new_mod)¶
Create a mapping for
six.movescalled name that references different modules in Python 2 and 3. old_mod is the name of the Python 2 module. new_mod is the name of the Python 3 module.
- class six.MovedAttribute(name, old_mod, new_mod, old_attr=None, new_attr=None)¶
Create a mapping for
six.movescalled name that references different attributes in Python 2 and 3. old_mod is the name of the Python 2 module. new_mod is the name of the Python 3 module. If new_attr is not given, it defaults to old_attr. If neither is given, they both default to name.