Abstract

In Python 2.7 and Python 3.2, the default warning filters were updated to hide DeprecationWarning by default, such that deprecation warnings in development tools that were themselves written in Python (e.g. linters, static analysers, test runners, code generators), as well as any other applications that merely happened to be written in Python, wouldn’t be visible to their users unless those users explicitly opted in to seeing them.

However, this change has had the unfortunate side effect of making DeprecationWarning markedly less effective at its primary intended purpose: providing advance notice of breaking changes in APIs (whether in CPython, the standard library, or in third party libraries) to users of those APIs.

To improve this situation, this PEP proposes a single adjustment to the default warnings filter: displaying deprecation warnings attributed to the main module by default.

This change will mean that code entered at the interactive prompt and code in single file scripts will revert to reporting these warnings by default, while they will continue to be silenced by default for packaged code distributed as part of an importable module.

The PEP also proposes a number of small adjustments to the reference interpreter and standard library documentation to help make the warnings subsystem more approachable for new Python developers.

As part of the documentation updates, it will be made clearer that the unittest test runner displays all warnings by default when executing test cases, and that other test runners are advised to follow that example.

Specification

ignore::DeprecationWarning
ignore::PendingDeprecationWarning
ignore::ImportWarning
ignore::BytesWarning
ignore::ResourceWarning

default::DeprecationWarning:__main__
ignore::DeprecationWarning
ignore::PendingDeprecationWarning
ignore::ImportWarning
ignore::BytesWarning
ignore::ResourceWarning

if not sys.warnoptions:
    warnings.simplefilter("default")

warnings.filterwarnings("default", category=DeprecationWarning,
                                   module=self.user_ns.get("__name__"))

Reference Implementation

A reference implementation is available in the PR [4] linked from the related tracker issue for this PEP [5].

As a side-effect of implementing this PEP, the internal warnings filter list will start allowing the use of plain strings as part of filter definitions (in addition to the existing use of compiled regular expressions). When present, the plain strings will be compared for exact matches only. This approach allows the new default filter to be added during interpreter startup without requiring early access to the re module.

Motivation

As discussed in [1] and mentioned in [2], Python 2.7 and Python 3.2 changed the default handling of DeprecationWarning such that:

• the warning was hidden by default during normal code execution
• the unittest test runner was updated to re-enable it when running tests

The intent was to avoid cases of tooling output like the following:

$ devtool mycode/
/usr/lib/python3.6/site-packages/devtool/cli.py:1: DeprecationWarning: 'async' and 'await' will become reserved keywords in Python 3.7
  async = True
... actual tool output ...

Even when devtool is a tool specifically for Python programmers, this is not a particularly useful warning, as it will be shown on every invocation, even though the main helpful step an end user can take is to report a bug to the developers of devtool.

The warning is even less helpful for general purpose developer tools that are used across more languages than just Python, and almost entirely *un*helpful for applications that simply happen to be written in Python, and aren’t necessarily intended for a developer audience at all.

However, this change proved to have unintended consequences for the following audiences:

• anyone using a test runner other than the default one built into unittest (the request for third party test runners to change their default warnings filters was never made explicitly, so many of them still rely on the interpreter defaults that are designed to suit deployed applications)
• anyone using the default unittest test runner to test their Python code in a subprocess (since even unittest only adjusts the warnings settings in the current process)
• anyone writing Python code at the interactive prompt or as part of a directly executed script that didn’t have a Python level test suite at all

In these cases, DeprecationWarning ended up become almost entirely equivalent to PendingDeprecationWarning: it was simply never seen at all.

Limitations on PEP Scope

This PEP exists specifically to explain both the proposed addition to the default warnings filter for 3.7, and to more clearly articulate the rationale for the original change to the handling of DeprecationWarning back in Python 2.7 and 3.2.

This PEP does not solve all known problems with the current approach to handling deprecation warnings. Most notably:

• The default unittest test runner does not currently report deprecation warnings emitted at module import time, as the warnings filter override is only put in place during test execution, not during test discovery and loading.
• The default unittest test runner does not currently report deprecation warnings in subprocesses, as the warnings filter override is applied directly to the loaded warnings module, not to the PYTHONWARNINGS environment variable.
• The standard library doesn’t provide a straightforward way to opt-in to seeing all warnings emitted by a particular dependency prior to upgrading it (the third-party warn module [3] does provide this, but enabling it involves monkeypatching the standard library’s warnings module).
• When software has been factored out into support modules, but those modules have little or no automated test coverage, re-enabling deprecation warnings by default in __main__ isn’t likely to help find API compatibility problems. Near term, the best currently available answer is to run affected applications with PYTHONWARNINGS=default::DeprecationWarning or python -W default::DeprecationWarning and pay attention to their stderr output. Longer term, this is really a question for researchers working on static analysis of Python code: how to reliably find usage of deprecated APIs, and how to infer that an API or parameter is deprecated based on warnings.warn calls, without actually running either the code providing the API or the code accessing it.

While these are real problems with the status quo, they’re excluded from consideration in this PEP because they’re going to require more complex solutions than a single additional entry in the default warnings filter, and resolving them at least potentially won’t require going through the PEP process.

For anyone interested in pursuing them further, the first two would be unittest module enhancement requests, the third would be a warnings module enhancement request, while the last would only require a PEP if inferring API deprecations from their contents was deemed to be an intractable code analysis problem, and an explicit function and parameter marker syntax in annotations was proposed instead.

The CPython reference implementation will also include the following related changes in 3.7:

• a new -X dev command line option that combines several developer centric settings (including -Wd) into one command line flag: https://github.com/python/cpython/issues/76224
• changing the behaviour in debug builds to show more of the warnings that are off by default in regular interpreter builds: https://github.com/python/cpython/issues/76269

Independently of the proposed changes to the default filters in this PEP, issue 32229 [7] is a proposal to add a warnings.hide_warnings API to make it simpler for application developers to hide warnings during normal operation, while easily making them visible when testing.

References

• First python-dev discussion thread
• Second python-dev discussion thread

Copyright

This document has been placed in the public domain.