I cannot seem to find a good simple explanation of what python does differently when running with the -O or optimize flag.
From the docs:
When the Python interpreter is invoked with the -O flag, optimized code is generated and stored in .pyo files. The optimizer currently doesn’t help much; it only removes assert statements. When -O is used, all bytecode is optimized; .pyc files are ignored and .py files are compiled to optimized bytecode.
Passing two -O flags to the Python interpreter (-OO) will cause the bytecode compiler to perform optimizations that could in some rare cases result in malfunctioning programs. Currently only
__doc__strings are removed from the bytecode, resulting in more compact .pyo files. Since some programs may rely on having these available, you should only use this option if you know what you’re doing.
A program doesn’t run any faster when it is read from a .pyc or .pyo file than when it is read from a .py file; the only thing that’s faster about .pyc or .pyo files is the speed with which they are loaded.
So in other words, almost nothing.
It somewhat depends on the Python version. To find out precisely what it does, search the source code for Py_OptimizeFlag. In 2.5, it
- causes the interpreter to load .pyo files, not .pyc files (in .zip files, just makes .pyo preferred over .pyc)
__debug__to have a value of 0
- ignores assert statements in source code
__debug__statically as being 0
- causes the byte code generator to save .pyo files, not .pyc
As answered in python optimization mode:
python -O does the following currently:
- completely ignores asserts
- sets the special builtin name
__debug__to False (which by default is True)
and when called as python -OO
- removes docstrings from the code
I don't know why everyone forgets to mention the
__debug__ issue; perhaps it is because I'm the only one using it :) An
if __debug__ construct creates no bytecode at all when running under
-O, and I find that very useful.