__future__
— Future statement definitions¶
Source code: Lib/__future__.py
Imports of the form from __future__ import feature
are called
future statements. These are special-cased by the Python compiler
to allow the use of new Python features in modules containing the future statement
before the release in which the feature becomes standard.
While these future statements are given additional special meaning by the
Python compiler, they are still executed like any other import statement and
the __future__
exists and is handled by the import system the same way
any other Python module would be. This design serves three purposes:
To avoid confusing existing tools that analyze import statements and expect to find the modules they’re importing.
To document when incompatible changes were introduced, and when they will be — or were — made mandatory. This is a form of executable documentation, and can be inspected programmatically via importing
__future__
and examining its contents.To ensure that future statements run under releases prior to Python 2.1 at least yield runtime exceptions (the import of
__future__
will fail, because there was no module of that name prior to 2.1).
Module Contents¶
No feature description will ever be deleted from __future__
. Since its
introduction in Python 2.1 the following features have found their way into the
language using this mechanism:
feature |
optional in |
mandatory in |
effect |
---|---|---|---|
nested_scopes |
2.1.0b1 |
2.2 |
PEP 227: Statically Nested Scopes |
generators |
2.2.0a1 |
2.3 |
PEP 255: Simple Generators |
division |
2.2.0a2 |
3.0 |
PEP 238: Changing the Division Operator |
absolute_import |
2.5.0a1 |
3.0 |
PEP 328: Imports: Multi-Line and Absolute/Relative |
with_statement |
2.5.0a1 |
2.6 |
PEP 343: The «with» Statement |
print_function |
2.6.0a2 |
3.0 |
PEP 3105: Make print a function |
unicode_literals |
2.6.0a2 |
3.0 |
PEP 3112: Bytes literals in Python 3000 |
generator_stop |
3.5.0b1 |
3.7 |
PEP 479: StopIteration handling inside generators |
annotations |
3.7.0b1 |
TBD [1] |
PEP 563: Postponed evaluation of annotations |
- class __future__._Feature¶
Each statement in
__future__.py
is of the form:FeatureName = _Feature(OptionalRelease, MandatoryRelease, CompilerFlag)
where, normally, OptionalRelease is less than MandatoryRelease, and both are 5-tuples of the same form as
sys.version_info
:(PY_MAJOR_VERSION, # the 2 in 2.1.0a3; an int PY_MINOR_VERSION, # the 1; an int PY_MICRO_VERSION, # the 0; an int PY_RELEASE_LEVEL, # "alpha", "beta", "candidate" or "final"; string PY_RELEASE_SERIAL # the 3; an int )
- _Feature.getOptionalRelease()¶
OptionalRelease records the first release in which the feature was accepted.
- _Feature.getMandatoryRelease()¶
In the case of a MandatoryRelease that has not yet occurred, MandatoryRelease predicts the release in which the feature will become part of the language.
Else MandatoryRelease records when the feature became part of the language; in releases at or after that, modules no longer need a future statement to use the feature in question, but may continue to use such imports.
MandatoryRelease may also be
None
, meaning that a planned feature got dropped or that it is not yet decided.
- _Feature.compiler_flag¶
CompilerFlag is the (bitfield) flag that should be passed in the fourth argument to the built-in function
compile()
to enable the feature in dynamically compiled code. This flag is stored in the_Feature.compiler_flag
attribute on_Feature
instances.
Vedi anche
- Future statements
How the compiler treats future imports.
- PEP 236 - Back to the __future__
The original proposal for the __future__ mechanism.