Concurrently detect the minimum Python versions needed to run code
Project description
Vermin
Concurrently detect the minimum Python versions needed to run code. Additionally, since the code is vanilla Python, and it doesn’t have any external dependencies, it works with v2.7+ and v3+.
It functions by parsing Python code into an abstract syntax tree (AST), which it traverses and matches against internal dictionaries with 3227 rules, covering v2.0-2.7 and v3.0-3.9, divided into 139 modules, 2252 classes/functions/constants members of modules, 714 kwargs of functions, 4 strftime directives, 3 bytes format directives, 2 array typecodes, 3 codecs error handler names, 20 codecs encodings, 75 builtin generic annotation types, 8 builtin dict union (|) types, and 7 builtin dict union merge (|=) types.
Backports of the standard library, like typing, can be enabled for better results.
The project is fairly well-tested with 3428 unit and integration tests that are executed on Linux, macOS, and Windows.
It is recommended to use the most recent Python version to run Vermin on projects since Python’s own language parser is used to detect language features, like f-strings since Python 3.6 etc.
Usage
It is fairly straightforward to use Vermin:
./vermin.py /path/to/your/project
Or via PyPi:
% pip install vermin % vermin /path/to/your/project
% yay -S python-vermin
% git clone https://github.com/spack/spack.git % . spack/share/spack/setup-env.sh # depending on shell % spack install py-vermin % spack load py-vermin
When using continuous integration (CI) tools, like Travis CI, Vermin can be used to check that the minimum required versions didn’t change. The following is an excerpt:
install: - ./setup_virtual_env.sh - pip install vermin script: - vermin -t=2.7 -t=3 project_package otherfile.py
Features
Features detected include v2/v3 print expr and print(expr), long, f-strings, coroutines (async and await), asynchronous generators (await and yield in same function), asynchronous comprehensions, await in comprehensions, asynchronous for-loops, boolean constants, named expressions, keyword-only parameters, positional-only parameters, yield from, exception context cause (raise .. from ..), dict comprehensions, infix matrix multiplication, "..".format(..), imports (import X, from X import Y, from X import *), function calls wrt. name and kwargs, strftime + strptime directives used, function and variable annotations (also Final and Literal), continue in finally block, modular inverse pow(), array typecodes, codecs error handler names, encodings, % formatting and directives for bytes and bytearray, generalized unpacking, dictionary union ({..} | {..}), dictionary union merge (a = {..}; a |= {..}), builtin generic type annotations (list[str]), function decorators, class decorators and relaxed decorators. It tries to detect and ignore user-defined functions, classes, arguments, and variables with names that clash with library-defined symbols.
Caveats
Self-documenting fstrings detection has been disabled by default because the built-in AST cannot distinguish f'{a=}' from f'a={a}', for instance, since it optimizes some information away (#39). And this incorrectly marks some source code as using fstring self-doc when only using general fstring. To enable (unstable) fstring self-doc detection, use --feature fstring-self-doc.
Examples
% ./vermin.py -q vermin Minimum required versions: 2.7, 3.0 % ./vermin.py -q -t=3.3 vermin Minimum required versions: 2.7, 3.0 Target versions not met: 3.3 % echo $? 1 % ./vermin.py -q --versions vermin Minimum required versions: 2.7, 3.0 Version range: 2.0, 2.6, 2.7, 3.0 % ./vermin.py -v examples Detecting python files.. Analyzing 6 files using 8 processes.. /path/to/examples/formatv2.py 2.7, 3.2 /path/to/examples/argparse.py 2.7, 3.0 /path/to/examples/formatv3.py 2.0, 3.0 /path/to/examples/printv3.py !2, 3.4 /path/to/examples/abc.py /path/to/examples/unknown.py Minimum required versions: 3.4 Incompatible versions: 2 % ./vermin.py -vv /path/to/examples/abc.py Detecting python files.. Analyzing using 8 processes.. !2, 3.4 /path/to/examples/abc.py 'abc' requires 2.6, 3.0 'abc.ABC' requires !2, 3.4 Minimum required versions: 3.4 Incompatible versions: 2 % ./vermin.py -vvv /path/to/examples/abc.py Detecting python files.. Analyzing using 8 processes.. !2, 3.4 /path/to/examples/abc.py L1 C7: 'abc' requires 2.6, 3.0 L2: 'abc.ABC' requires !2, 3.4 Minimum required versions: 3.4 Incompatible versions: 2 % ./vermin.py -f parsable /path/to/examples/abc.py /path/to/examples/abc.py:1:7:2.6:3.0:'abc' module /path/to/examples/abc.py:2::!2:3.4:'abc.ABC' member /path/to/examples/abc.py:::!2:3.4: :::!2:3.4:
API (experimental)
Information such as minimum versions, used functionality constructs etc. can also be accessed programmatically via the vermin Python module, though it’s an experimental feature. It is still recommended to use the command-line interface.
>>> import vermin as V
>>> V.version_strings(V.detect("a = long(1)"))
'2.0, !3'
>>> config = V.Config()
>>> config.add_exclusion("long")
>>> V.version_strings(V.detect("a = long(1)", config))
'~2, ~3'
>>> config.set_verbose(3)
>>> v = V.visit("""from argparse import ArgumentParser
... ap = ArgumentParser(allow_abbrev=True)
... """, config)
>>> print(v.output_text(), end="")
L1 C5: 'argparse' module requires 2.7, 3.2
L2: 'argparse.ArgumentParser(allow_abbrev)' requires !2, 3.5
>>> V.version_strings(v.minimum_versions())
'!2, 3.5'
Lax Mode
Vermin parses Python source code into abstract syntax trees (ASTs) which it traverses to do analysis. However, it doesn’t do conditional logic, i.e. deciding which branches will be taken at runtime, since it can cause unexpected side-effects to actually evaluate code. As an example, analysis of the following:
if False:
print(f"..but I won't be evaluated")
Will yield “f-strings require 3.6+” even though the branch will not be evaluated at runtime.
The lax mode, via argument -l, was created to circumvent cases like this. But it’s not a perfect solution since it will skip all if, ternarys, for, while, try, and boolean operations. Therefore it is recommended to run with and without lax mode to get a better understanding of individual cases.
Analysis Exclusions
Another approach to conditional logic than lax mode, is to exclude modules, members, kwargs, codecs error handler names, or codecs encodings by name from being analysed via argument --exclude <name> (multiple can be specified). Consider the following code block that checks if PROTOCOL_TLS is an attribute of ssl:
import ssl
tls_version = ssl.PROTOCOL_TLSv1
if hasattr(ssl, "PROTOCOL_TLS"):
tls_version = ssl.PROTOCOL_TLS
It will state that “‘ssl.PROTOCOL_TLS’ requires 2.7, 3.6” but to exclude that from the results, use --exclude 'ssl.PROTOCOL_TLS'. Afterwards, only “‘ssl’ requires 2.6, 3.0” will be shown and the final minimum required versions are v2.6 and v3.0 instead of v2.7 and v3.6.
Code can even be excluded on a more fine grained level using the # novermin or # novm comments at line level. The following yields the same behavior as the previous code block, but only for that particular if and its body:
import ssl
tls_version = ssl.PROTOCOL_TLSv1
if hasattr(ssl, "PROTOCOL_TLS"): # novermin
tls_version = ssl.PROTOCOL_TLS
In scenarios where multiple tools are employed that use comments for various features, exclusions can be defined by having # for each comment “segment”:
if hasattr(ssl, "PROTOCOL_TLS"): # noqa # novermin # pylint: disable=no-member
tls_version = ssl.PROTOCOL_TLS
Contributing
Contributions are very welcome, especially adding and updating detection rules of modules, functions, classes etc. to cover as many Python versions as possible. For PRs, make sure to keep the code vanilla Python and run make test first. Note that code must remain valid and working on Python v2.7+ and v3+.
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