636 lines
21 KiB
Plaintext
636 lines
21 KiB
Plaintext
PEP: 511
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Title: API for code transformers
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Version: $Revision$
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Last-Modified: $Date$
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Author: Victor Stinner <vstinner@python.org>
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Status: Rejected
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Type: Standards Track
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Content-Type: text/x-rst
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Created: 04-Jan-2016
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Python-Version: 3.6
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Rejection Notice
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================
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This PEP was rejected by its author.
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This PEP was seen as blessing new Python-like programming languages
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which are close but incompatible with the regular Python language. It
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was decided to not promote syntaxes incompatible with Python.
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This PEP was also seen as a nice tool to experiment new Python features,
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but it is already possible to experiment them without the PEP, only with
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importlib hooks. If a feature becomes useful, it should be directly part
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of Python, instead of depending on an third party Python module.
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Finally, this PEP was driven was the FAT Python optimization project
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which was abandoned in 2016, since it was not possible to show any
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significant speedup, but also because of the lack of time to implement
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the most advanced and complex optimizations.
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Abstract
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========
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Propose an API to register bytecode and AST transformers. Add also ``-o
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OPTIM_TAG`` command line option to change ``.pyc`` filenames, ``-o
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noopt`` disables the peephole optimizer. Raise an ``ImportError``
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exception on import if the ``.pyc`` file is missing and the code
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transformers required to transform the code are missing. code
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transformers are not needed code transformed ahead of time (loaded from
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``.pyc`` files).
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Rationale
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=========
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Python does not provide a standard way to transform the code. Projects
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transforming the code use various hooks. The MacroPy project uses an
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import hook: it adds its own module finder in ``sys.meta_path`` to
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hook its AST transformer. Another option is to monkey-patch the
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builtin ``compile()`` function. There are even more options to
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hook a code transformer.
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Python 3.4 added a ``compile_source()`` method to
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``importlib.abc.SourceLoader``. But code transformation is wider than
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just importing modules, see described use cases below.
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Writing an optimizer or a preprocessor is out of the scope of this PEP.
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Usage 1: AST optimizer
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----------------------
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Transforming an Abstract Syntax Tree (AST) is a convenient
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way to implement an optimizer. It's easier to work on the AST than
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working on the bytecode, AST contains more information and is more high
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level.
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Since the optimization can done ahead of time, complex but slow
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optimizations can be implemented.
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Example of optimizations which can be implemented with an AST optimizer:
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* `Copy propagation
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<https://en.wikipedia.org/wiki/Copy_propagation>`_:
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replace ``x=1; y=x`` with ``x=1; y=1``
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* `Constant folding
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<https://en.wikipedia.org/wiki/Constant_folding>`_:
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replace ``1+1`` with ``2``
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* `Dead code elimination
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<https://en.wikipedia.org/wiki/Dead_code_elimination>`_
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Using guards (see :pep:`510`), it is possible to
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implement a much wider choice of optimizations. Examples:
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* Simplify iterable: replace ``range(3)`` with ``(0, 1, 2)`` when used
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as iterable
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* `Loop unrolling <https://en.wikipedia.org/wiki/Loop_unrolling>`_
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* Call pure builtins: replace ``len("abc")`` with ``3``
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* Copy used builtin symbols to constants
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* See also `optimizations implemented in fatoptimizer
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<https://fatoptimizer.readthedocs.org/en/latest/optimizations.html>`_,
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a static optimizer for Python 3.6.
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The following issues can be implemented with an AST optimizer:
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* `Issue #1346238
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<https://bugs.python.org/issue1346238>`_: A constant folding
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optimization pass for the AST
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* `Issue #2181 <http://bugs.python.org/issue2181>`_:
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optimize out local variables at end of function
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* `Issue #2499 <http://bugs.python.org/issue2499>`_:
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Fold unary + and not on constants
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* `Issue #4264 <http://bugs.python.org/issue4264>`_:
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Patch: optimize code to use LIST_APPEND instead of calling list.append
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* `Issue #7682 <http://bugs.python.org/issue7682>`_:
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Optimisation of if with constant expression
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* `Issue #10399 <https://bugs.python.org/issue10399>`_: AST
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Optimization: inlining of function calls
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* `Issue #11549 <http://bugs.python.org/issue11549>`_:
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Build-out an AST optimizer, moving some functionality out of the
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peephole optimizer
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* `Issue #17068 <http://bugs.python.org/issue17068>`_:
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peephole optimization for constant strings
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* `Issue #17430 <http://bugs.python.org/issue17430>`_:
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missed peephole optimization
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Usage 2: Preprocessor
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---------------------
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A preprocessor can be easily implemented with an AST transformer. A
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preprocessor has various and different usages.
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Some examples:
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* Remove debug code like assertions and logs to make the code faster to
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run it for production.
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* `Tail-call Optimization <https://en.wikipedia.org/wiki/Tail_call>`_
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* Add profiling code
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* `Lazy evaluation <https://en.wikipedia.org/wiki/Lazy_evaluation>`_:
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see `lazy_python <https://github.com/llllllllll/lazy_python>`_
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(bytecode transformer) and `lazy macro of MacroPy
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<https://github.com/lihaoyi/macropy#lazy>`_ (AST transformer)
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* Change dictionary literals into collection.OrderedDict instances
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* Declare constants: see `@asconstants of codetransformer
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<https://pypi.python.org/pypi/codetransformer>`_
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* Domain Specific Language (DSL) like SQL queries. The
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Python language itself doesn't need to be modified. Previous attempts
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to implement DSL for SQL like :pep:`PEP 335 - Overloadable Boolean
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Operators <335>` was rejected.
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* Pattern Matching of functional languages
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* String Interpolation, but :pep:`498`
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was merged into Python
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3.6.
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`MacroPy <https://github.com/lihaoyi/macropy>`_ has a long list of
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examples and use cases.
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This PEP does not add any new code transformer. Using a code transformer
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will require an external module and to register it manually.
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See also `PyXfuscator <https://bitbucket.org/namn/pyxfuscator>`_: Python
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obfuscator, deobfuscator, and user-assisted decompiler.
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Usage 3: Disable all optimization
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---------------------------------
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Ned Batchelder asked to add an option to disable the peephole optimizer
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because it makes code coverage more difficult to implement. See the
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discussion on the python-ideas mailing list: `Disable all peephole
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optimizations
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<https://mail.python.org/pipermail/python-ideas/2014-May/027893.html>`_.
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This PEP adds a new ``-o noopt`` command line option to disable the
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peephole optimizer. In Python, it's as easy as::
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sys.set_code_transformers([])
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It will fix the `Issue #2506 <https://bugs.python.org/issue2506>`_: Add
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mechanism to disable optimizations.
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Usage 4: Write new bytecode optimizers in Python
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------------------------------------------------
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Python 3.6 optimizes the code using a peephole optimizer. By
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definition, a peephole optimizer has a narrow view of the code and so
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can only implement basic optimizations. The optimizer rewrites the
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bytecode. It is difficult to enhance it, because it written in C.
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With this PEP, it becomes possible to implement a new bytecode optimizer
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in pure Python and experiment new optimizations.
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Some optimizations are easier to implement on the AST like constant
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folding, but optimizations on the bytecode are still useful. For
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example, when the AST is compiled to bytecode, useless jumps can be
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emitted because the compiler is naive and does not try to optimize
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anything.
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Use Cases
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=========
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This section give examples of use cases explaining when and how code
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transformers will be used.
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Interactive interpreter
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-----------------------
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It will be possible to use code transformers with the interactive
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interpreter which is popular in Python and commonly used to demonstrate
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Python.
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The code is transformed at runtime and so the interpreter can be slower
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when expensive code transformers are used.
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Build a transformed package
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---------------------------
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It will be possible to build a package of the transformed code.
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A transformer can have a configuration. The configuration is not stored
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in the package.
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All ``.pyc`` files of the package must be transformed with the same code
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transformers and the same transformers configuration.
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It is possible to build different ``.pyc`` files using different
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optimizer tags. Example: ``fat`` for the default configuration and
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``fat_inline`` for a different configuration with function inlining
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enabled.
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A package can contain ``.pyc`` files with different optimizer tags.
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Install a package containing transformed .pyc files
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---------------------------------------------------
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It will be possible to install a package which contains transformed
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``.pyc`` files.
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All ``.pyc`` files with any optimizer tag contained in the package are
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installed, not only for the current optimizer tag.
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Build .pyc files when installing a package
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------------------------------------------
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If a package does not contain any ``.pyc`` files of the current
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optimizer tag (or some ``.pyc`` files are missing), the ``.pyc`` are
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created during the installation.
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Code transformers of the optimizer tag are required. Otherwise, the
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installation fails with an error.
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Execute transformed code
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------------------------
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It will be possible to execute transformed code.
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Raise an ``ImportError`` exception on import if the ``.pyc`` file of the
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current optimizer tag is missing and the code transformers required to
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transform the code are missing.
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The interesting point here is that code transformers are not needed to
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execute the transformed code if all required ``.pyc`` files are already
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available.
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Code transformer API
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====================
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A code transformer is a class with ``ast_transformer()`` and/or
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``code_transformer()`` methods (API described below) and a ``name``
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attribute.
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For efficiency, do not define a ``code_transformer()`` or
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``ast_transformer()`` method if it does nothing.
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The ``name`` attribute (``str``) must be a short string used to identify
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an optimizer. It is used to build a ``.pyc`` filename. The name must not
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contain dots (``'.'``), dashes (``'-'``) or directory separators: dots
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are used to separated fields in a ``.pyc`` filename and dashes areused
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to join code transformer names to build the optimizer tag.
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.. note::
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It would be nice to pass the fully qualified name of a module in the
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*context* when an AST transformer is used to transform a module on
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import, but it looks like the information is not available in
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``PyParser_ASTFromStringObject()``.
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code_transformer() method
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-------------------------
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Prototype::
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def code_transformer(self, code, context):
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...
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new_code = ...
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...
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return new_code
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Parameters:
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* *code*: code object
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* *context*: an object with an *optimize* attribute (``int``), the optimization
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level (0, 1 or 2). The value of the *optimize* attribute comes from the
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*optimize* parameter of the ``compile()`` function, it is equal to
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``sys.flags.optimize`` by default.
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Each implementation of Python can add extra attributes to *context*. For
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example, on CPython, *context* will also have the following attribute:
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* *interactive* (``bool``): true if in interactive mode
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XXX add more flags?
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XXX replace flags int with a sub-namespace, or with specific attributes?
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The method must return a code object.
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The code transformer is run after the compilation to bytecode
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ast_transformer() method
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------------------------
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Prototype::
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def ast_transformer(self, tree, context):
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...
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return tree
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Parameters:
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* *tree*: an AST tree
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* *context*: an object with a ``filename`` attribute (``str``)
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It must return an AST tree. It can modify the AST tree in place, or
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create a new AST tree.
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The AST transformer is called after the creation of the AST by the
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parser and before the compilation to bytecode. New attributes may be
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added to *context* in the future.
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Changes
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=======
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In short, add:
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* -o OPTIM_TAG command line option
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* sys.implementation.optim_tag
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* sys.get_code_transformers()
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* sys.set_code_transformers(transformers)
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* ast.PyCF_TRANSFORMED_AST
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API to get/set code transformers
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--------------------------------
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Add new functions to register code transformers:
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* ``sys.set_code_transformers(transformers)``: set the list of code
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transformers and update ``sys.implementation.optim_tag``
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* ``sys.get_code_transformers()``: get the list of code
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transformers.
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The order of code transformers matter. Running transformer A and then
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transformer B can give a different output than running transformer B an
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then transformer A.
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Example to prepend a new code transformer::
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transformers = sys.get_code_transformers()
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transformers.insert(0, new_cool_transformer)
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sys.set_code_transformers(transformers)
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All AST transformers are run sequentially (ex: the second transformer
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gets the input of the first transformer), and then all bytecode
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transformers are run sequentially.
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Optimizer tag
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-------------
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Changes:
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* Add ``sys.implementation.optim_tag`` (``str``): optimization tag.
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The default optimization tag is ``'opt'``.
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* Add a new ``-o OPTIM_TAG`` command line option to set
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``sys.implementation.optim_tag``.
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Changes on ``importlib``:
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* ``importlib`` uses ``sys.implementation.optim_tag`` to build the
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``.pyc`` filename to importing modules, instead of always using
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``opt``. Remove also the special case for the optimizer level ``0``
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with the default optimizer tag ``'opt'`` to simplify the code.
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* When loading a module, if the ``.pyc`` file is missing but the ``.py``
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is available, the ``.py`` is only used if code optimizers have the
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same optimizer tag than the current tag, otherwise an ``ImportError``
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exception is raised.
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Pseudo-code of a ``use_py()`` function to decide if a ``.py`` file can
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be compiled to import a module::
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def transformers_tag():
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transformers = sys.get_code_transformers()
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if not transformers:
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return 'noopt'
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return '-'.join(transformer.name
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for transformer in transformers)
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def use_py():
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return (transformers_tag() == sys.implementation.optim_tag)
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The order of ``sys.get_code_transformers()`` matter. For example, the
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``fat`` transformer followed by the ``pythran`` transformer gives the
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optimizer tag ``fat-pythran``.
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The behaviour of the ``importlib`` module is unchanged with the default
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optimizer tag (``'opt'``).
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Peephole optimizer
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------------------
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By default, ``sys.implementation.optim_tag`` is ``opt`` and
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``sys.get_code_transformers()`` returns a list of one code transformer:
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the peephole optimizer (optimize the bytecode).
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Use ``-o noopt`` to disable the peephole optimizer. In this case, the
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optimizer tag is ``noopt`` and no code transformer is registered.
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Using the ``-o opt`` option has not effect.
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AST enhancements
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----------------
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Enhancements to simplify the implementation of AST transformers:
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* Add a new compiler flag ``PyCF_TRANSFORMED_AST`` to get the
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transformed AST. ``PyCF_ONLY_AST`` returns the AST before the
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transformers.
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Examples
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========
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.pyc filenames
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--------------
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Example of ``.pyc`` filenames of the ``os`` module.
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With the default optimizer tag ``'opt'``:
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=========================== ==================
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.pyc filename Optimization level
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=========================== ==================
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``os.cpython-36.opt-0.pyc`` 0
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``os.cpython-36.opt-1.pyc`` 1
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``os.cpython-36.opt-2.pyc`` 2
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=========================== ==================
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With the ``'fat'`` optimizer tag:
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=========================== ==================
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.pyc filename Optimization level
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=========================== ==================
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``os.cpython-36.fat-0.pyc`` 0
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``os.cpython-36.fat-1.pyc`` 1
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``os.cpython-36.fat-2.pyc`` 2
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=========================== ==================
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Bytecode transformer
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--------------------
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Scary bytecode transformer replacing all strings with
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``"Ni! Ni! Ni!"``::
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import sys
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import types
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class BytecodeTransformer:
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name = "knights_who_say_ni"
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def code_transformer(self, code, context):
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consts = ['Ni! Ni! Ni!' if isinstance(const, str) else const
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for const in code.co_consts]
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return types.CodeType(code.co_argcount,
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code.co_kwonlyargcount,
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code.co_nlocals,
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code.co_stacksize,
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code.co_flags,
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code.co_code,
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tuple(consts),
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code.co_names,
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code.co_varnames,
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code.co_filename,
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code.co_name,
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code.co_firstlineno,
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code.co_lnotab,
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code.co_freevars,
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code.co_cellvars)
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# replace existing code transformers with the new bytecode transformer
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sys.set_code_transformers([BytecodeTransformer()])
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# execute code which will be transformed by code_transformer()
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exec("print('Hello World!')")
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Output::
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Ni! Ni! Ni!
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AST transformer
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---------------
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Similarly to the bytecode transformer example, the AST transformer also
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replaces all strings with ``"Ni! Ni! Ni!"``::
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import ast
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import sys
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class KnightsWhoSayNi(ast.NodeTransformer):
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def visit_Str(self, node):
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node.s = 'Ni! Ni! Ni!'
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return node
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class ASTTransformer:
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name = "knights_who_say_ni"
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def __init__(self):
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self.transformer = KnightsWhoSayNi()
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def ast_transformer(self, tree, context):
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self.transformer.visit(tree)
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return tree
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# replace existing code transformers with the new AST transformer
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sys.set_code_transformers([ASTTransformer()])
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# execute code which will be transformed by ast_transformer()
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exec("print('Hello World!')")
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Output::
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Ni! Ni! Ni!
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Other Python implementations
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||
============================
|
||
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||
The :pep:`511` should be implemented by all Python implementation, but the
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||
bytecode and the AST are not standardized.
|
||
|
||
By the way, even between minor version of CPython, there are changes on
|
||
the AST API. There are differences, but only minor differences. It is
|
||
quite easy to write an AST transformer which works on Python 2.7 and
|
||
Python 3.5 for example.
|
||
|
||
|
||
Discussion
|
||
==========
|
||
|
||
* `[Python-ideas] PEP 511: API for code transformers
|
||
<https://mail.python.org/pipermail/python-ideas/2016-January/037884.html>`_
|
||
(January 2016)
|
||
* `[Python-Dev] AST optimizer implemented in Python
|
||
<https://mail.python.org/pipermail/python-dev/2012-August/121286.html>`_
|
||
(August 2012)
|
||
|
||
|
||
Prior Art
|
||
=========
|
||
|
||
AST optimizers
|
||
--------------
|
||
|
||
The Issue #17515 `"Add sys.setasthook() to allow to use a custom AST"
|
||
optimizer <https://bugs.python.org/issue17515>`_ was a first attempt of
|
||
API for code transformers, but specific to AST.
|
||
|
||
In 2015, Victor Stinner wrote the `fatoptimizer
|
||
<http://fatoptimizer.readthedocs.org/>`_ project, an AST optimizer
|
||
specializing functions using guards.
|
||
|
||
In 2014, Kevin Conway created the `PyCC <http://pycc.readthedocs.org/>`_
|
||
optimizer.
|
||
|
||
In 2012, Victor Stinner wrote the `astoptimizer
|
||
<https://bitbucket.org/haypo/astoptimizer/>`_ project, an AST optimizer
|
||
implementing various optimizations. Most interesting optimizations break
|
||
the Python semantics since no guard is used to disable optimization if
|
||
something changes.
|
||
|
||
In 2011, Eugene Toder proposed to rewrite some peephole optimizations in
|
||
a new AST optimizer: issue #11549, `Build-out an AST optimizer, moving
|
||
some functionality out of the peephole optimizer
|
||
<https://bugs.python.org/issue11549>`_. The patch adds ``ast.Lit`` (it
|
||
was proposed to rename it to ``ast.Literal``).
|
||
|
||
|
||
Python Preprocessors
|
||
--------------------
|
||
|
||
* `MacroPy <https://github.com/lihaoyi/macropy>`_: MacroPy is an
|
||
implementation of Syntactic Macros in the Python Programming Language.
|
||
MacroPy provides a mechanism for user-defined functions (macros) to
|
||
perform transformations on the abstract syntax tree (AST) of a Python
|
||
program at import time.
|
||
* `pypreprocessor <https://code.google.com/p/pypreprocessor/>`_: C-style
|
||
preprocessor directives in Python, like ``#define`` and ``#ifdef``
|
||
|
||
|
||
Bytecode transformers
|
||
---------------------
|
||
|
||
* `codetransformer <https://pypi.python.org/pypi/codetransformer>`_:
|
||
Bytecode transformers for CPython inspired by the ``ast`` module’s
|
||
``NodeTransformer``.
|
||
* `byteplay <http://code.google.com/p/byteplay/>`_: Byteplay lets you
|
||
convert Python code objects into equivalent objects which are easy to
|
||
play with, and lets you convert those objects back into living Python
|
||
code objects. It's useful for applying crazy transformations on Python
|
||
functions, and is also useful in learning Python byte code
|
||
intricacies. See `byteplay documentation
|
||
<http://wiki.python.org/moin/ByteplayDoc>`_.
|
||
|
||
See also:
|
||
|
||
* `BytecodeAssembler <http://pypi.python.org/pypi/BytecodeAssembler>`_
|
||
|
||
|
||
Copyright
|
||
=========
|
||
|
||
This document has been placed in the public domain.
|