fidzu : python

This is to inform you about the new stable release of Nuitka. It is the extremely compatible Python compiler, "download now".

This release is a major release with many new features and the long wanted improvements for scalability of the Python compilation.

Bug Fixes

• Accelerated: The enhanced detection for uninstalled Anaconda and WinPython was not fully working. (Fixed in 2.8.1 already.)

• Onefile: Fixed an issue in DLL mode where signal handlers were not being registered, which could prevent proper program termination on signals like CTRL-C. (Fixed in 2.8.1 already.)

• Windows: Fixed incorrect handling of forward slashes in cache directory paths, which caused issues with Nuitka-Action. (Fixed in 2.8.1 already.)

• UI: The --output-dir option was not being honored in accelerated mode when --output-filename was also provided. (Fixed in 2.8.2 already.)

• UI: The --output-filename option help said it wouldn't work for standalone mode when in fact it did for a while already. (Fixed in 2.8.2 already.)

• Onefile: On Windows, fixed a crash when using --output-dir where it was checking for the wrong folder to exist. (Fixed in 2.8.2 already.)

• macOS: Fixed a crash that could occur when many package-specific directories were used, which could lead to the otool command line being too long. (Fixed in 2.8.2 already.)

• Standalone: For the "Python Build Standalone" flavor, ensured that debug builds correctly recognize all their specific built-in modules, preventing potential errors. (Fixed in 2.8.4 already.)

• macOS: Fixed an issue where $ORIGIN r-paths were set but ended up unused, which in some cases caused errors by exhausting the header space and preventing the build entirely. (Fixed in 2.8.5 already.)

• macOS: Fixed an issue to ensure the system xattr binary is used.

  Otherwise, using arch -x86_64 python for compilation could fail when some packages are installed that provide xattr as well, because that might be an arm64 binary only and would not work. (Fixed in 2.8.5 already.)

• UI: Fixed a misleading typo in the rejection message for unsupported Python 3.13.4. (Fixed in 2.8.5 already.)

• Accelerated: The runner scripts .cmd or .sh now are also placed respecting the --output-filename and --output-dir options. (Fixed in 2.8.5 already.)

• Plugins: Ensured that plugins detected by namespace usage are also activated in module mode. (Fixed in 2.8.5 already.)

• Standalone: Fixed an issue where non-existent packages listed in top_level.txt files could cause errors during metadata collection. (Fixed in 2.8.6 already.)

• Standalone: Corrected the classification of the site module, which was previously treated as a standard library module in some cases. (Fixed in 2.8.6 already.)

• Windows: Ensured that temporary link libraries and export files created during compilation are properly deleted, preventing them from being included in the standalone distribution. (Fixed in 2.8.6 already.)

• Python3.14: Adapted to core changes by no longer inlining hacl code for this version. (Fixed in 2.8.6 already.)

• Python 3.14: Follow allocator changes and immortal flags changes.

• Python 3.14: Follow GC changes for compiled frames as well.

• Python 3.14: Catch attempts to clear a compiled suspended frame object.

• Fixed a potential mis-optimization for uses of locals() when transforming the variable name reference call. (Fixed in 2.8.6 already.)

• Module: Fixed pkgutil.iter_modules not working when loading a module into a namespace. (Fixed in 2.8.7 already.)

• Reports: Fixed a crash when creating the compilation report before the source directory is created. (Fixed in 2.8.7 already.)

• Standalone: Fixed ignoring of non-existent packages from top_level.txt for metadata. (Fixed in 2.8.7 already.)

• UI: The --no-progress-bar option was not disabling the Scons progress bars. (Fixed in 2.8.7 already.)

• UI: Fixed an exception in the tqdm progress bar during process shutdown. (Fixed in 2.8.7 already.)

• Windows: Fixed incorrect sys.executable value in onefile DLL mode. (Fixed in 2.8.9 already.)

• Python3.14: Added missing implicit dependency for _ctypes on Windows. (Fixed in 2.8.9 already.)

• Python3.13+: Fixed missing export of PyInterpreter_* API.

• Python3.14: Adapted to change in evaluation order of __exit__ and __enter__.

• Multiprocessing: Fixed issue where sys.argv was not yet corrected when argparse was used early in spawned processes.

• Scons: Fixed an issue where Zig was not used as a fallback when MinGW64 was present but unusable.

• Windows: Made onefile binary work on systems without runtime DLLs installed as well.

• Scons: Made tracing robust against threaded outputs.

• Python3.12+: Enhanced workaround for loading of extension modules with sub-packages to cover more cases.

• Scons: Fixed missing Zig version output.

• Scons: Fixed Zig detection to enforce PATH or CC usage on macOS instead of download, since it's not available.

• UI: Fixed normalization of user paths, improving macOS support for reporting.

• Linux: Fixed the workaround for the memset zero length warning, which was wrongly applied to Clang. Only GCC requires it, and Clang complained about it.

• Linux: More robust fallback to g++ when gcc is too old for C11 support.

• Compatibility: Fixed a bug where del of a subscript could cause wrong runtime behavior due to missing control flow escape annotations for the subscript value itself and the index.

• macOS: Fixed an issue where Info.plist user-facing entitlements keys mapping to multiple internal entitlements were not handled correctly.

• UI: Ensured tracing uses at least 80 characters for very narrow terminals to maintain readability.

• Compatibility: Fixed an issue where nested loops could have incorrect traces, potentially leading to mis-optimizations.

• Linux: Fixed an issue where _XOPEN_SOURCE was mistakenly appended for Clang, causing warnings.

• Scons: Improved passed variables handling by detecting None or invalid types earlier.

• Fixed a bug where propagating class dictionaries needed extra micro passes to ensure proper optimization of their traces for the new variables.

• Scons: Fixed an issue with process spawning when using rusage capture.

• Scons: Followed the file closing behavior of the standard communicate closer to avoid potential hangs.

Package Support

• Anti-Bloat: Avoided a warning during program shutdown when using a compiled xgboost package. (Fixed in 2.8.1 already.)

• Standalone: Added support for the oracledb package. (Fixed in 2.8.2 already.)

• macOS: Added support for newer PySide6 versions. (Fixed in 2.8.4 already.)

• Standalone: Added support for including more metadata for the transformers package. (Fixed in 2.8.5 already.)

• Standalone: Metadata from Nuitka Package Configuration is now only included if the corresponding package is part of the compilation. (Fixed in 2.8.5 already.)

• Standalone: Added support for the win32ctypes package. (Fixed in 2.8.6 already.)

• Standalone: Added support for newer versions of the dask package. (Fixed in 2.8.6 already.)

• Standalone: Added support for the dataparser package. (Added in 2.8.7 already.)

• Standalone: Added support for puremagic, pygments.lexers and tomli in standalone mode.

• Standalone: Added automatic detection of mypyc runtime dependencies, no need to manually configure that anymore. Also our configuration was often only correct for a single OS, and single upstream versions which is now fixed for packages having it before.

• Standalone: Added support for the newer av (PyAV) package version.

• Standalone: Added support for the sentry_sdk, jedi, parso, and line_profiler packages.

• Standalone: Added support for newer pandas versions.

New Features

• UI: Added support for --project parameter to build using configuration from pyproject.toml (e.g. Poetry, Setuptools).

  With this, you can simply run python -m nuitka --project --mode=onefile and it will use the pyproject.toml or setup.py/setup.cfg files to get the configuration and build the Nuitka binary.

  Previously Nuitka could only be used for building wheels with build package, and for building wheels that is still the best way.

  The --project option is currently compatible with build and poetry and detects the used build system automatically.

• Zig: Added experimental support for using Zig project's zig cc as a C compiler backend for Nuitka. This can be enabled by setting the CC environment variable to point to the zig or zig.exe executable.

• Reports: Started capturing rusage for OSes that support it.

  • Only POSIX-compliant OSes will do it (Linux, macOS, and all BSD variants), but Android does not.

  • Not yet part of the actual report, as we need to figure out how to use and present the information.

• Scons: Added experimental support for enabling Thin LTO with the Clang compiler.

• Standalone: Honor --nofollow-import-to for stdlib modules as well.

  This allows users to manually reduce standard library usage, but it can also cause crashes from extension modules not prepared for the absence of standard library modules.

• Onefile: Allowed disabling the onefile timeout and hard killing on CTRL-C entirely by providing --onefile-child-grace-time=infinity.

• Scons: Added newer inline copy of Scons which supports Visual Studio 2026. (Added in 2.8.7 already.)

• Scons: Allowed using Python versions only partially supported for Nuitka with Scons. (Added in 2.8.7 already.)

• UI: Added option --devel-profile-compilation for compile time profiling. Also renamed the old runtime profiling option --profile to --debug-profile-runtime, that is however still broken.

• Reports: Including CPU instr and cycle counters in timing on native Linux.

  • With appropriate configuration on Linux this allows to get at very precise timing configuration so we can judge even small compile time improvements correctly. We then don't need many runs to average out noise from other effects.

  • Don't use wall clock but process time for steps that are not doing IO like module optimization for more accurate values otherwise, it is however not very accurate still.

• Python3.12+: Added support for function type syntax (generics).

• Python3.14: Added groundwork for deferred evaluation of function annotations.

• Python3.14: Added support for uncompiled generator integration which is crucial for asyncio correctness and general usability with modern frameworks.

• Debugging: Added --debug-self-forking to debug fork bombs.

• Windows: Added --include-windows-runtime-dlls option to control inclusion of Windows C runtime DLLs. Defaults to auto.

• Python 3.14: Added experimental support for deferred annotations.

• Plugins: Added option --qt-debug-plugins for debugging Qt plugin loading.

• DLLs: Added support for DLL tags to potentially control inclusion with more granularity.

• macOS: Added support for many more protected resource entitlements (Siri, Bluetooth, HomeKit, etc.) to the bundle details.

• Python: Added support for @nuitka_ignore decorator to exclude functions from compilation.

  @nuitka_ignore
  def my_cpython_func():
      # This function is not compiled, but stays bytecode
      ...
  

• UI: Added support for merging user and standard YAML Nuitka package configurations, currently only including proper merging of implicit imports.

Optimization

• Avoid making duplicate hard imports by dropping assignments if the variable was already assigned to the same value.

• Found previous assignment traces faster.

  • The assignment and del nodes were using functions to find what they already knew from the last micro pass. The self.variable_trace already kept track of the previous value trace situation.

  • For matching unescaped traces we will do similar, but it's not really used right now, so make it only a TODO as that will eventually be very similar.

  • Also speeds up the first micro pass even more, because it doesn't have to search and do other things. If no previous trace exists, none is attempted to be used.

  • Also the common check if no by-name uses or merges of a value occurred was always used inverted and now should be slightly faster to use and allow to short-circuit.

  • While this accelerated the first micro pass by a lot for per-assignment work, it mainly means to cleanup the design such that traces are easier to re-recognize. And this is a first step with immediate impacts.

• Much faster Python passes.

  • The "Escape" and "Unknown" traces now have their own number spaces. This allows doing some quick checks for a trace without using the actual object, but just its number.

  • Narrow the scope of variables to the outline scope that uses them, so that they don't need to be dealt with in merging later code where they don't ever change anymore and are not used at all.

  • When checking for unused variables, do not ask the trace collection to filter its traces. Instead it works off the ones attached to the variable already. This avoids a lot of searching work. It also uses a method to decide if a trace constitutes usage rather than a long elif chain.

• Faster variable trace maintenance.

  • We now trace variables in trace collection as a dictionary per variable with a dictionary of the versions, this is closer to our frequent usage per variable.

  • That makes it a lot easier to update variables after the tracing is finished to know their users and writers.

  • Requires a lot less work, but also makes work less memory local such that the performance gain is relatively small despite less work being done.

  • It also avoids having to maintain a per-variable set for its using scopes.

  • Decide presence of writing traces for parameter variables faster.

• Avoid unnecessary micro passes.

  • Detect variable references discarded sooner for better micro-pass efficiency. We were spending an extra pass on the whole module to stabilize the variable usage, which can end up being a lot of work.

  • After a module optimization pass found no changes, we no longer make an extra micro pass to avoid stabilization bugs, but only check against it not happening in debug mode. Depending on the number of micro passes, this can be a relatively high performance gain. For the telethon.tl.types module this was a 13% performance gain on top.

• For "PASS 1" of telethon.tl.types, which has been one of the known troublemakers with many classes and type annotations, all changes combined improve the compilation time by 1500%.

• Faster code generation.

  • Indentation in generated C code is no longer performed to speed up code generation. To restore readability, use the new option --devel-generate-readable-code which will use clang-format to format the C code.

• Recognized module variable usages inside outlined functions that are in a loop, which improves the effectiveness of caching at run-time. (Added in 2.8.6 already.)

• Standalone: Partially solved a TODO of minimizing intermediate directories in r-paths of ELF platforms, by only putting them there if the directory they point to will contain DLLs or binaries. This removes unused elements and reduces r-path size.

• Windows: Made the caching of external paths effective, which significantly speeds up DLL resolution in subsequent compilations. (Fixed in 2.8.6 already.)

• macOS: Removed extended attributes from data files as well, improving performance. (Fixed in 2.8.7 already.)

• Scons: Stopped detecting installed MinGW to avoid overhead as it is not supported. (Fixed in 2.8.9 already.)

• Scons: Added caching for MSVC information to reduce compilation time and if already available, use that to detect Windows SDK location rather that using vswhere.exe each time.

• Avoid computing large % string interpolations at compile time. These could cause constants to be included in the binary as a result.

• Avoid including importlib._bootstrap and importlib._bootstrap_external as they are available as frozen modules.

• Fixed un-hashable dictionary keys not being properly optimized, forcing runtime handling.

Anti-Bloat

• Avoid including tzdata on non-Windows platforms. (Fixed in 2.8.7 already.)

• Avoid including pyparsing.testing in the pyparsing package.

• Added configuration to avoid compiled via C for large generated files for the sqlfluff package.

Organizational

• UI: Don't say --include-data-files-external doesn't work in standalone mode.

  It actually has worked for a while, and we since renamed that option, but the help still said it wouldn't work in standalone mode.

• Debugging: Added assertions for code object creation.

  We were getting assertions from Python when built with Zig, and these are supposed to provide those as well.

• Debugging: In case of tool commands failing, output the too long command line if that was the error given.

• Anti-Bloat: Don't allow custom nofollow modes, point the user to the correct option instead. This was never needed, but two ways of providing this user decision make no sense.

• UI: The help text for --include-data-files-external was updated to reflect that it works in standalone mode. (Fixed in 2.8.5 already.)

• Release: Use lowercase names for source archives in PyPI uploads. (Fixed in 2.8.7 already.)

• Quality: Fixed an issue where "assume yes" was not being passed for downloads in the commit hook.

• UI: Improved wording for missing C compiler message.

• Debugging: More clear verbose trace for dropped expressions.

• Debugging: Output what module had extra changes during debug extra micro pass.

• Quality: Manage more development tools (clang-format, etc.) via private pip space for better consistency and isolation.

• AI: Enhanced pull request template with directions for AI-driven PRs.

• AI: Added agent command create-mre to assist in creating a minimal reproduction example (MRE).

• User Manual: Added documentation about redistribution requirements for Python 3.12-3.14.

• Quality: Added --un-pushed argument to auto-format tool for checking only un-pushed changes.

• Scons: Improved error message to point to Zig support if no C compiler is found.

• MonolithPy: Follow rename of our Python fork to MonolithPy to avoid confusion with the Nuitka compiler project itself.

• Scons: Prefer English output and warn user for missing English language pack with MSVC in case or outputs being made.

• UI: When running non-interactively, print the default response that is assumed for user queries to stdout as well, so it becomes visible in the logs.

• UI: Warn when using protected resources options without standalone/bundle mode enabled on macOS.

• Reports: Sort DLLs and entry points in compilation reports by destination path for deterministic output.

• Quality: Skip files with spell-checker: disable in codespell checks.

• Release: Avoid compiling bytecode for inline copies that are not compatible with the running Python version during install.

• Visual Studio: Ignored names in backticks and code blocks in ReST for spelling checks.

• Actions: Ensured compilation reports are always recorded, even in case of errors, as they are most useful then.

• AI: Added a workflow create-mre to assist in creating a Minimal Reproducible Example from a larger file triggering a Nuitka bug. This has guidance on avoiding standalone mode and instructions for reducing code to just produce a MRE that is really small.

• AI: Added a workflow fix-module-not-found-error for solving simple ModuleNotFoundError at runtime errors.

• AI: Added further strategies for Minimal Reproducible Example (MRE) reduction to the agent workflow.

• UI: Reject input paths from standard library locations to prevent compiling files from there as main files.

Tests

• Added support for --all with --max-failures option to the test runner to stop after a specified number of failures, or just run all tests and output the failed tests in the end.

  Also the tests specified can be a glob pattern, to match multiple tests, not just a test name.

  Added examples to the help output of the runner to guide the usage of the developers.

• Ignore multiline source code outputs of Python3.14 in tracebacks for output comparison, Nuitka won't do those.

• Added test cases for poetry and distutils. Also verify that standalone mode works with --project for the supported build systems.

• Made the distutils tests cases much more consistent.

• Watch: Improved binary name detection from compilation reports for better mode support beyond standalone mode.

• Allow downloading tools (like clang-format) for all test cases.

• Added options to enforce Zig or Clang usage for C compiling.

• Suppress pip output when not running interactively to avoid test output differences.

• Added nuitka.format and nuitka.package_config to self-compilation tests.

• Added colorization to test comparison diffs if a tty is available.

• Avoided using --nofollow-imports in tests as some Python flavors do not work with it when using --mode=standalone.

Cleanups

• Moved options to new nuitka.options package.

• Python3.14: Fixed a type mismatch warning seen with MSVC. (Fixed in 2.8.9 already.)

• Massive amounts of spelling cleanups. Correct spelling is more and more places allows identification of bugs more immediately, therefore these are very worthwhile.

• Code cleanup and style improvements in Errors and OutputDirectories modules.

• Replaced usages of os.environ.get with os.getenv for consistency and denser code.

• Moved MSVC re-dist detection to DllDependenciesWin32.

• Release: Don't install zstandard by default anymore.

• UI: Tone down complaint about checksum mismatches.

• Static source files are now provided by Nuitka directly.

• Renamed C function modulecode_ to module_code_ for consistency.

Summary

This release is finally a break-through for scalability. We will continue the push for scalability in the next release as well, but with more of a focus on the C compilation step, to generate C code that is easier for the backend compiler.

Also, this release finally addresses many usability problems. The non-deployment hooks for imports not found, that were actively excluded, are one such thing. The start of --project enables far easier adoption of Nuitka for existing projects.

Other huge improvements are related to generics, they are now much better support, closing gaps in the Python3.12 support.

The onefile DLL mode as used on Windows is finally perfect and should have no issues anymore, while enabling big future improvements.

Unfortunately 3.14 support is not yet ready and will have to be delayed until the next release.

22 Apr 2026 1:39pm GMT

In this quiz, you'll test your understanding of the concepts in the video course SQLite and SQLAlchemy in Python: Move Your Data Beyond Flat Files.

By working through this quiz, you'll revisit how Python, SQLite, and SQLAlchemy work together to give your programs reliable data storage. You'll also check your grasp of primary and foreign keys, SQLAlchemy's Core and ORM layers, and the many-to-many relationships that tie your data together.

[ Improve Your Python With 🐍 Python Tricks 💌 - Get a short & sweet Python Trick delivered to your inbox every couple of days. >> Click here to learn more and see examples ]

22 Apr 2026 12:00pm GMT

I have a QTableView with a custom QAbstractTableModel, and I want to add a column of checkboxes. Should I create a custom delegate class for the checkbox, or is there a simpler way to do this?

You can use a custom delegate to draw a checkbox widget, but you don't have to. Qt provides a built-in mechanism for this: Qt.CheckStateRole. By returning Qt.Checked or Qt.Unchecked from your model's data() method, Qt will render a checkbox automatically - no delegate required.

Let's walk through how this works, starting with a simple display and then adding some interactivity.

Displaying checkboxes using Qt.CheckStateRole

The simplest way to add checkboxes to a QTableView is to handle Qt.CheckStateRole in your model's data() method. When Qt asks your model for data with this role, returning Qt.Checked or Qt.Unchecked tells Qt to draw a checkbox in that cell.

Here's a minimal example that shows a checked checkbox in every cell:

def data(self, index, role):
    if role == Qt.DisplayRole:
        value = self._data[index.row()][index.column()]
        return str(value)

    if role == Qt.CheckStateRole:
        return Qt.Checked

This produces a table where every cell has both text and a checked checkbox:

In a real application, you would return Qt.Checked or Qt.Unchecked based on actual boolean values in your data. You might also restrict checkboxes to a specific column - for example, one that holds True/False values - rather than showing them everywhere.

Making checkboxes toggleable

Displaying checkboxes is a good start, but users will expect to be able to click them. To make checkboxes interactive, you need three things:

1. A data store for the check state - a list (or column) that tracks which items are checked.
2. Qt.ItemIsUserCheckable returned from flags() - this tells Qt that the cell supports toggling.
3. A setData() implementation for Qt.CheckStateRole - this stores the updated state when the user clicks a checkbox.

Let's put all of this together in a complete example.

import sys

from PyQt6 import QtCore, QtGui, QtWidgets
from PyQt6.QtCore import Qt


class TableModel(QtCore.QAbstractTableModel):

    def __init__(self, data, checked):
        super().__init__()
        self._data = data
        self._checked = checked

    def data(self, index, role):
        if role == Qt.ItemDataRole.DisplayRole:
            value = self._data[index.row()][index.column()]
            return str(value)

        if role == Qt.ItemDataRole.CheckStateRole:
            checked = self._checked[index.row()][index.column()]
            if checked:
                return Qt.CheckState.Checked
            return Qt.CheckState.Unchecked

    def setData(self, index, value, role):
        if role == Qt.ItemDataRole.CheckStateRole:
            checked = value == Qt.CheckState.Checked.value
            self._checked[index.row()][index.column()] = checked
            self.dataChanged.emit(index, index, [role])
            return True
        return False

    def rowCount(self, index):
        return len(self._data)

    def columnCount(self, index):
        return len(self._data[0])

    def flags(self, index):
        return (
            Qt.ItemFlag.ItemIsSelectable
            | Qt.ItemFlag.ItemIsEnabled
            | Qt.ItemFlag.ItemIsUserCheckable
        )


class MainWindow(QtWidgets.QMainWindow):

    def __init__(self):
        super().__init__()

        self.table = QtWidgets.QTableView()

        data = [
            [1, 9, 2],
            [1, 0, -1],
            [3, 5, 2],
            [3, 3, 2],
            [5, 8, 9],
        ]

        checked = [
            [True, True, True],
            [False, False, False],
            [True, False, False],
            [True, False, True],
            [False, True, True],
        ]

        self.model = TableModel(data, checked)
        self.table.setModel(self.model)

        self.setCentralWidget(self.table)


app = QtWidgets.QApplication(sys.argv)
window = MainWindow()
window.show()
app.exec()

Run this and you'll see a table with checkboxes next to every value. Clicking any checkbox toggles it on and off, and the underlying checked list is updated accordingly.

Storing check state separately

The checked list mirrors the structure of the data list - each cell has a corresponding True or False value. This keeps the boolean check state separate from the data.

You could store it in the same data structure, as a [bool, data_value] nested list, or tuple if you like.

Returning the check state in data()

When Qt asks for Qt.ItemDataRole.CheckStateRole, we look up the boolean value for that cell and return either Qt.CheckState.Checked or Qt.CheckState.Unchecked:

if role == Qt.ItemDataRole.CheckStateRole:
    checked = self._checked[index.row()][index.column()]
    if checked:
        return Qt.CheckState.Checked
    return Qt.CheckState.Unchecked

For these return X if True, otherwise return Y type returns you can also use and X if bool else Y expression.

if role == Qt.ItemDataRole.CheckStateRole:
    checked = self._checked[index.row()][index.column()]
    return Qt.CheckState.Checked if checked else Qt.CheckState.Unchecked

Handling user clicks in setData()

When the user clicks a checkbox, Qt calls setData() with the new value and the Qt.ItemDataRole.CheckStateRole role. We compare the incoming value to Qt.CheckState.Checked.value to determine whether the box was checked or unchecked, then store the result:

def setData(self, index, value, role):
    if role == Qt.ItemDataRole.CheckStateRole:
        checked = value == Qt.CheckState.Checked.value
        self._checked[index.row()][index.column()] = checked
        self.dataChanged.emit(index, index, [role])
        return True
    return False

Notice the self.dataChanged.emit(...) call - this notifies the view that the data has changed so it can redraw the cell. Always emit this signal when you modify data in setData().

Enabling user interaction with flags()

The flags() method tells Qt what the user can do with each cell. Including Qt.ItemFlag.ItemIsUserCheckable is what makes the checkbox clickable:

def flags(self, index):
    return (
        Qt.ItemFlag.ItemIsSelectable
        | Qt.ItemFlag.ItemIsEnabled
        | Qt.ItemFlag.ItemIsUserCheckable
    )

Without this flag, the checkbox will still appear (because you're returning data for CheckStateRole), but the user won't be able to toggle it.

Showing checkboxes in only one column

In many applications, you only want checkboxes in a specific column. You can achieve this by checking index.column() in your data() and flags() methods. For example, to show checkboxes only in column 2:

def data(self, index, role):
    if role == Qt.ItemDataRole.DisplayRole:
        value = self._data[index.row()][index.column()]
        return str(value)

    if role == Qt.ItemDataRole.CheckStateRole:
        if index.column() == 2:
            checked = self._checked[index.row()]
            if checked:
                return Qt.CheckState.Checked
            return Qt.CheckState.Unchecked

def flags(self, index):
    flags = Qt.ItemFlag.ItemIsSelectable | Qt.ItemFlag.ItemIsEnabled
    if index.column() == 2:
        flags |= Qt.ItemFlag.ItemIsUserCheckable
    return flags

In this case, self._checked would be a simple one-dimensional list (one boolean per row) rather than a 2D list.

Summary

To add checkboxes to a QTableView with a custom QAbstractTableModel:

• Handle Qt.ItemDataRole.CheckStateRole in data() to display checkboxes based on boolean values.
• Return Qt.ItemFlag.ItemIsUserCheckable from flags() to make checkboxes interactive.
• Implement setData() for Qt.ItemDataRole.CheckStateRole to store the updated state when the user clicks, and emit dataChanged to keep the view in sync.

This approach works natively with Qt's model/view architecture and avoids the complexity of writing a custom delegate. For a more complete guide to displaying data in table views - including using numpy and pandas data sources - see our QTableView with ModelViews tutorial. If you want to show only an icon without text in specific cells, see how to show only an icon in a QTableView cell. You can also learn how to create your own custom widgets for more advanced UI needs.

For an in-depth guide to building Python GUIs with PyQt6 see my book, Create GUI Applications with Python & Qt6.

22 Apr 2026 9:00am GMT

Back in February, I encountered an out-of-memory error while migrating a client project to Python 3.14. The issue occurred when running Django's database migration command (migrate) on a limited-resource server, and seemed to be caused by the new incremental garbage collection algorithm in Python 3.14.

At the time, I wrote a workaround and started on this blog post, but other tasks took priority and I never got around to finishing it. But four days ago, Hugo van Kemenade, the Python 3.14 release manager, announced that the new garbage collection algorithm will be reverted in Python 3.14.5, and the next Python 3.15 alpha release, due to reports of increased memory usage.

Here's the story of my workaround, as extra evidence that reverting incremental garbage collection is a good call.

$ heroku logs --app example-python-314-wsgk3w --num 1000 | less
...
app[release.6634]: System check identified no issues (26 silenced).
app[release.6634]: Operations to perform:
app[release.6634]: Apply all migrations: admin, auth, contenttypes, ...
app[release.6634]: Running migrations:

heroku[release.6634]: Process running mem=527M(101.5%)
heroku[release.6634]: Error R14 (Memory quota exceeded)

heroku[release.9599]: Process running mem=977M(190.3%)
heroku[release.9599]: Error R14 (Memory quota exceeded)

heroku[release.9599]: Process running mem=1033M(201.7%)
heroku[release.9599]: Error R15 (Memory quota vastly exceeded)
heroku[release.9599]: Stopping process with SIGKILL

$ memray run manage.py migrate

$ heroku ps:exec -a example-python-314-rspwtc --dyno web.1 bash
Establishing credentials... done
Connecting to web.1 on ⬢ example-python-314-rspwtc...
~ $

$ memray run --live manage.py migrate

$ memray run manage.py migrate
Writing profile results into memray-manage.py.724.bin

$ trash memray-manage.py.724.bin && heroku ps:copy -a example-python-314-rspwtc --dyno web.1 memray-manage.py.724.bin

$ memray flamegraph memray-manage.py.724.bin

class ModelState:
    ...

    def render(self, apps):
        """Create a Model object from our current state into the given apps."""
        ...
        return type(self.name, bases, body)

import atexit
import gc
import tracemalloc
import weakref
from itertools import islice

from django.db.migrations.state import ModelState

tracemalloc.start(2)

orig_render = ModelState.render

rendered_classes = weakref.WeakSet()


def wrapped_render(*args, **kwargs):
    cls = orig_render(*args, **kwargs)
    rendered_classes.add(cls)
    return cls


ModelState.render = wrapped_render


@atexit.register
def show_referrers():
    print(f"🎯 {len(rendered_classes)} classes referred to.\n")

    for cls in islice(rendered_classes, 2):
        print(f"🎁🎁🎁 {cls!r} 🎁🎁🎁")
        for i, referrer in enumerate(gc.get_referrers(cls), start=1):
            print(f"🍌 Referrer #{i}: {referrer!r}")
            if tb := tracemalloc.get_object_traceback(referrer):
                print("\n".join(tb.format(most_recent_first=True)))
            print()
        print()
        print()

🎁🎁🎁 <class '__fake__.ContentType'> 🎁🎁🎁
🍌 Referrer #1: <generator object WeakSet.__iter__ at 0x1234ef300>
  File "/.../example/core/apps.py", line 45
    for cls in islice(rendered_classes, 2):

...

🍌 Referrer #11: {'name': 'model', ..., 'model': <class '__fake__.ContentType'>}
  File "/.../.venv/lib/python3.14/site-packages/django/utils/functional.py", line 47
    res = instance.__dict__[self.name] = self.func(instance)
  File "/.../.venv/lib/python3.14/site-packages/django/db/models/fields/__init__.py", line 1210
    self.validators.append(validators.MaxLengthValidator(self.max_length))

def contribute_to_class(self, cls, name, private_only=False):
    ...
    self.model = cls
    ...

import gc

from django.core.management.commands.migrate import Command as BaseCommand


class Command(BaseCommand):
    """Extended 'migrate' command."""

    def migration_progress_callback(self, action, migration=None, fake=False):
        """
        Extend Django's migration progress reporting to force garbage
        collection after each migration. This is a workaround to keep memory
        usage low, especially because we have a low limit on Heroku. It seems
        the incremental garbage collector introduced in Python 3.14 cannot
        keep up with the migration process's tendency to create many cyclical
        objects, so our best fallback is to force collection of everything
        after each migration is applied or unapplied.

        https://adamj.eu/tech/2026/04/20/django-python-3.14-incremental-gc/
        """
        super().migration_progress_callback(action, migration=migration, fake=fake)
        if action in ("apply_success", "unapply_success"):
            gc.collect()

20 Apr 2026 4:00am GMT

Introduction

Django News Newsletter is moving!

Just a quick heads up. We're planning to move our newsletter to a new platform next week.

If things look a little different when it shows up, it's still us.

Django Newsletter

News

PyCharm & Django annual fundraiser

JetBrains and the Django Software Foundation team up again to offer 30% off PyCharm while matching donations to fund Django's core development and community programs.

djangoproject.com

New Technical Governance - request for community feedback

Django proposes a simpler, more flexible technical governance model and is inviting community feedback ahead of a planned July 2026 rollout.

djangoproject.com

Could you host DjangoCon Europe 2027? Call for organizers

DjangoCon Europe 2026 is happening right now in Athens, Greece but plans for 2027 have already begun. This post lays out all the resources for any questions, support, and more for future organizers.

djangoproject.com

Reverting the incremental GC in Python 3.14 and 3.15 - Core Development

Python is rolling back its new incremental garbage collector in 3.14 and 3.15 after real-world memory issues, reverting to the proven generational model while rethinking a future reintroduction.

python.org

PEP 772: Packaging Council governance process (Round 3) - Packaging / Coordination

PEP 772 has officially been approved, creating a new Python Packaging Council to guide the future of packaging standards, tools, and ecosystem governance.

python.org

Django Software Foundation

Django Has Adopted Contributor Covenant 3

The 3.0 edition of the new Code of Conduct is here! This milestone represents the completion of a careful, community-driven process that began earlier this year.

djangoproject.com

DSF Board monthly meeting, April 9, 2026

The Django Software Foundation approved a modernized Code of Conduct, new working group charters, and key community initiatives, signaling a fresh push toward clearer governance and sustained project growth.

django.github.io

Python Software Foundation

PyCon US 2026: Why we're asking you to think about your hotel reservation

For many years, PyCon US has relied on hotel booking commissions to help pay for conference space. If you are attending this year, please use an official hotel to be both close to the venue.

pyfound.blogspot.com

Python Software Foundation News: Reflecting on Five Years as the PSF's First CPython Developer in Residence

Łukasz Langa looks back on five years and highlights including the transition to GitHub issues from bugs.python.org, the replacement of the mostly manual CLA process with an automated system, the introduction of free threading to Python, and the replacement of the interactive shell in the interpreter. Also while addressing thousands of bugs, he's witnessed the full-time paid developer in residence roster at the Python Software Foundation grow from one person to five.

pyfound.blogspot.com

Updates to Django

Today, "Updates to Django" is presented by Johanan Oppong Amoateng from Djangonaut Space! 🚀

Last week we had 12 pull requests merged into Django by 10 different contributors - including a first-time contributor! Congratulations to Jonathan Wu for having their first commits merged into Django - welcome on board!

This week's Django highlights: 🦄

• Added user_perm_str helper function that can be used when checking user permission using has_perm(). (#37021)

• The task decorator was updated to accept **kwargs and forward them to task_class, allowing additional parameters to be passed to custom Task subclasses. (#36816)

Django Newsletter

Django Fellow Reports

Fellow Report - Natalia

A good chunk of this week focused on improving contributor workflows and reducing review overhead by introducing automated quality checks for PRs :robot:. This builds on prior experimentation (thanks @frankwiles) and seeks to provide early, actionable feedback for PR authors while helping maintainers focus on substantive review. We also had a flood of overly verbose and low quality reports from the same person, which I closed eagerly making use of the recent new guidelines we published in the security policy.

djangoproject.com

Fellow Report - Jacob

The last report before DjangoCon Europe. Lots of tickets triaged, reviewed, authored, discussed, and the usual kaleidoscope of miscellaneous tasks.

djangoproject.com

Django Fellow Report - Sarah

Django Fellow Sarah Boyce returns from maternity leave with part-time updates, tackling triage, reviews, security work, and GSoC prep while navigating connectivity challenges from Turkey.

djangoproject.com

Sponsored Link 1

You know @login_required. Now meet @app.reasoner(). AgentField turns Python functions into production AI agents, structured output, async execution, agent discovery. Every decorator becomes a REST endpoint. Open source, Apache 2.0. Python, Go & TypeScript SDKs.

agentfield.ai

Articles

Enforce Business Logic in the Database with Django

A practical guide to enforcing business logic at the database layer in Django using transactions, select_for_update locks, and CheckConstraint / UniqueConstraint to prevent race conditions and invalid data rather than relying on application-level validation.

lincolnloop.com

Let's talk about LLMs

James Bennett consolidates his thoughts on AI/LLMs in this wide-ranging piece, ending with a call to invest in software fundamentals instead of racing to adopt the latest AI craze.

b-list.org

Django Table, Filter and Export With Htmx

A reusable pattern for combining django-tables2, django-filter, and HTMX into a single generic view and template. Very cool stuff.

fundor333.com

Decoupling Your Business Logic from the Django ORM

Carlton Gibson's latest The Stack Report is a detailed dive into business logic and how to handle it in Django. This is a perennial topic, but he comes at it with decades of experience and wisdom.

buttondown.com

djust 0.4.0 - The Developer Experience Release

djust 0.4.0 is about developer experience - making everyday tasks faster, safer, and more intuitive. 30+ new features, critical bug fixes, and a security hardening pass that eliminated every known vulnerability.

djust.org

Why aren't we uv yet?

A decent chunk of new Python repos already use uv. Coding agents still overwhelmingly recommend pip and requirements.txt, while many users prefer uv.

aleyan.com

Events

Are You Attending PyCon, or Orbiting It?

PSF Board Member Georgi Ker makes a personal case for booking hotels via the official PyCon US website before April 24th.

georgiker.com

Design Articles

Under the hood of MDN's new frontend

From 2-min dev server starts to 2s. They rewrote MDN's entire frontend, ditching the React SPA for Lit web components, server components, and Rspack. The result: less JS shipped, scoped CSS, and a build pipeline that just works.

mozilla.org

Videos

Debunking Django Myths - Sarah Boyce at PyTV

Django Fellow Sarah Boyce gave a talk recently at PyTV titled, "Django Has a Marketing Problem: Debunking the Myths That Won't Die." It is a fantastic overview of what Django does well and what it can improve.

youtu.be

Incremental Typing in Django - Carlton Gibson

Former Django Fellow and current Django Chat podcast host Carlton Gibson, recently gave a talk titled, "Static Islands, Dynamic Sea: Some Thoughts on Incremental Typing." In it he talks about why Python's dynamic nature is a feature, not a bug, and demonstrates Mantle - a library of utilities for typing around Django's liquid core.

youtu.be

Sponsored Link 2

Annual PyCharm Promo - 30% off, all money goes to Django

The annual PyCharm + Django promotion is live until May 1st. This is the single biggest fundraiser for Django and has raised over $350,000 since 2016.

jetbrains.com

Podcasts

Django Tasks - Jake Howard

Episode 200(!) features Jake Howard, a Senior Systems Engineer at Torchbox and the author of DEP 14, django.tasks, the highlight feature in Django 6.0. We discuss his work on the Django security team, work with Wagtail, AI dabblings, and more.

djangochat.com

Django Job Board

Python Developer at Open Data Services

Remote UK role building Python data systems for social-impact projects, offering ~£48k plus profit share in a collaborative worker co-op.

djangojobboard.com

Projects

yassi/dj-signals-panel

Display registered Django signals and receivers, showing what fires and where.

github.com

dvf/opinionated-django

An opinionated Django project with Repository pattern, Pydantic DTOs, svcs DI, and Stripe-style ULID IDs

github.com

This RSS feed is published on https://django-news.com/. You can also subscribe via email.

17 Apr 2026 3:00pm GMT

(One of my summaries of the 2026 Djangocon EU in Athens).

There's an example to experiment with here: https://dryorm.xterm.info/fetch-modes-simple

Timeline: it will be included in Django 6.1 in August.

The reason is the 1+n problem:

books = Book.objects.all()
for book in books:
    print(book.author.name)
    # This does a fresh query for author every time.

You can solve it with select_related(relation_names) or prefetch_related(relation_names). The first does an inner join. The second does two queries.

But: you might miss a relation. You might specify too many relations, getting data you don't need. Or you might not know about the relation as the code is in a totally different part of the code.

Fetch mode is intended to solve it. You can append .fetch_mode(models.FETCH_xyz) to your query:

• models.FETCH_ONE: the current behaviour, which will be the default.
• models.FETCH_PEERS: Fetch a deferred field for all instances that came from the same queryset. More or less prefetch_related in an automatic, lazy manner.
• models.FETCH_RAISE: useful for development, it will raise FieldFetchBlocked. And it will thus tell you that you'll have a performance problem and that you might need FETCH_PEERS

This is what happens:

books = Book.objects.all().fetch_mode(models.FETCH_PEERS)
for book in books:
    # We're iterating over the query, so the query executes and grabs all books.
    print(book.author.name)
    # We accessed a relation, so at this point the prefetch_related-like
    # mechanism ist fired off and all authors linked to by the books are
    # grabbed in one single query.

You can write your own fetch modes, for instance if you only want a warning instead of raising an error.

Unrelated photo explanation: a cat I encountered in Athens on an evening stroll in the neighbourhood behind the hotel.

17 Apr 2026 4:00am GMT

Here is a useful trick that is unreasonably effective for simple computer use goals using modern terminal agents. On macOS, there has been a terminal osascript command since the original release of Mac OS X. All you have to do is suggest your agent use it and it can perform any application control action available in any AppleScript dictionary for any Mac app. No MCP set up or tools required at all. Agents are much more adapt at using rod terminal commands, especially ones that haven't changed in 30 years. Having a computer control interface that hasn't changed in 30 years and has extensive examples in the Internet corpus makes modern models understand how to use these tools basically Effortlessly. macOS locks down these permissions pretty heavily nowadays though, so you will have to grant the application control permission to terminal. But once you have done that, the range of possibilities for commanding applications using natural language is quite extensive. Also, for both Safari and chrome on Mac, you are going to want to turn on JavaScript over AppleScript permission. This basically allows claude or another agent to debug your web applications live for you as you are using them.In chrome, go to the view menu, developer submenu, and choose "Allow JavaScript from Apple events". In Safari, it's under the safari menu, settings, developer, "Allow JavaScript from Apple events". Then you can do something like "Hey Claude, would you Please use osascript to navigate the front chrome tab to hacker news". Once you suggest using OSA script in a session it will figure out pretty quickly what it can do with it. Of course you can ask it to do casual things like open your mail app or whatever. Then you can figure out what other things will work like please click around my web app or check the JavaScript Console for errors. Another very important tips for using modern agents is to try to practice using speech to text. I think speaking might be something like five times faster than typing. It takes a lot of time to get used to, especially after a lifetime of programming by typing, but it's a very interesting and a different experience and once you have a lot of practice It starts to to feel effortless.

04 Apr 2026 1:31pm GMT

I have been using macOS voice control for about three years. First it was a way to reduce pain from excessive computer use. It has been a real struggle. Decades of computer use habits with typing and the mouse are hard to overcome! Text selection manipulation commands work quite well on macOS native apps like apps written in swift or safari with an accessibly tagged webpage. However, many webpages and electron apps (Visual Studio Code) have serious problems manipulating the selection, not working at all when using "select foo" where foo is a word in the text box to select, or off by one errors when manipulating the cursor position or extending the selection. I only recently expanded my repertoire with the "start drag" and "drop" commands, previously having used "Click and hold mouse", "move cursor to x", and "release mouse". Well, now I have discovered that using "start drag x" and "drop x" makes a fantastic text selection method! This is really going to improve my speed. In the long run, I believe computer voice control in general is going to end up being faster than WIMP, but for now the awkwardly rigid command phrasing and the amount of times it misses commands or misunderstands commands still really holds it back. I've been learning the macOS Voice Control specific command set for years now and I still reach for the keyboard and mouse way too often.

16 Mar 2026 11:04am GMT

Humans Are Bad At Perceiving

Humans are not particularly good at catching bugs. For one thing, we get tired easily. There is some science on this, indicating that humans can't even maintain enough concentration to review more than about 400 lines of code at a time..

We have existing terms of art, in various fields, for the ways in which the human perceptual system fails to register stimuli. Perception fails when humans are distracted, tired, overloaded, or merely improperly engaged.

Each of these has implications for the fundamental limitations of code review as an engineering practice:

• Inattentional Blindness: you won't be able to reliably find bugs that you're not looking for.

• Repetition Blindness: you won't be able to reliably find bugs that you are looking for, if they keep occurring.

• Vigilance Fatigue: you won't be able to reliably find either kind of bugs, if you have to keep being alert to the presence of bugs all the time.

• and, of course, the distinct but related Alert Fatigue: you won't even be able to reliably evaluate reports of possible bugs, if there are too many false positives.

Never Send A Human To Do A Machine's Job

When you need to catch a category of error in your code reliably, you will need a deterministic tool to evaluate - and, thanks to our old friend "alert fatigue" above - ideally, to also remedy that type of error. These tools will relieve the need for a human to make the same repetitive checks over and over. None of them are perfect, but:

• to catch logical errors, use automated tests.
• to catch formatting errors, use autoformatters.
• to catch common mistakes, use linters.
• to catch common security problems, use a security scanner.

Don't blame reviewers for missing these things.

Code review should not be how you catch bugs.

What Is Code Review For, Then?

Code review is for three things.

First, code review is for catching process failures. If a reviewer has noticed a few bugs of the same type in code review, that's a sign that that type of bug is probably getting through review more often than it's getting caught. Which means it's time to figure out a way to deploy a tool or a test into CI that will reliably prevent that class of error, without requiring reviewers to be vigilant to it any more.

Second - and this is actually its more important purpose - code review is a tool for acculturation. Even if you already have good tools, good processes, and good documentation, new members of the team won't necessarily know about those things. Code review is an opportunity for older members of the team to introduce newer ones to existing tools, patterns, or areas of responsibility. If you're building an observer pattern, you might not realize that the codebase you're working in already has an existing idiom for doing that, so you wouldn't even think to search for it, but someone else who has worked more with the code might know about it and help you avoid repetition.

You will notice that I carefully avoided saying "junior" or "senior" in that paragraph. Sometimes the newer team member is actually more senior. But also, the acculturation goes both ways. This is the third thing that code review is for: disrupting your team's culture and avoiding stagnation. If you have new talent, a fresh perspective can also be an extremely valuable tool for building a healthy culture. If you're new to a team and trying to build something with an observer pattern, and this codebase has no tools for that, but your last job did, and it used one from an open source library, that is a good thing to point out in a review as well. It's an opportunity to spot areas for improvement to culture, as much as it is to spot areas for improvement to process.

Thus, code review should be as hierarchically flat as possible. If the goal of code review were to spot bugs, it would make sense to reserve the ability to review code to only the most senior, detail-oriented, rigorous engineers in the organization. But most teams already know that that's a recipe for brittleness, stagnation and bottlenecks. Thus, even though we know that not everyone on the team will be equally good at spotting bugs, it is very common in most teams to allow anyone past some fairly low minimum seniority bar to do reviews, often as low as "everyone on the team who has finished onboarding".

Oops, Surprise, This Post Is Actually About LLMs Again

Sigh. I'm as disappointed as you are, but there are no two ways about it: LLM code generators are everywhere now, and we need to talk about how to deal with them. Thus, an important corollary of this understanding that code review is a social activity, is that LLMs are not social actors, thus you cannot rely on code review to inspect their output.

My own personal preference would be to eschew their use entirely, but in the spirit of harm reduction, if you're going to use LLMs to generate code, you need to remember the ways in which LLMs are not like human beings.

When you relate to a human colleague, you will expect that:

1. you can make decisions about what to focus on based on their level of experience and areas of expertise to know what problems to focus on; from a late-career colleague you might be looking for bad habits held over from legacy programming languages; from an earlier-career colleague you might be focused more on logical test-coverage gaps,
2. and, they will learn from repeated interactions so that you can gradually focus less on a specific type of problem once you have seen that they've learned how to address it,

With an LLM, by contrast, while errors can certainly be biased a bit by the prompt from the engineer and pre-prompts that might exist in the repository, the types of errors that the LLM will make are somewhat more uniformly distributed across the experience range.

You will still find supposedly extremely sophisticated LLMs making extremely common mistakes, specifically because they are common, and thus appear frequently in the training data.

The LLM also can't really learn. An intuitive response to this problem is to simply continue adding more and more instructions to its pre-prompt, treating that text file as its "memory", but that just doesn't work, and probably never will. The problem - "context rot" is somewhat fundamental to the nature of the technology.

Thus, code-generators must be treated more adversarially than you would a human code review partner. When you notice it making errors, you always have to add tests to a mechanical, deterministic harness that will evaluates the code, because the LLM cannot meaningfully learn from its mistakes outside a very small context window in the way that a human would, so giving it feedback is unhelpful. Asking it to just generate the code again still requires you to review it all again, and as we have previously learned, you, a human, cannot review more than 400 lines at once.

To Sum Up

Code review is a social process, and you should treat it as such. When you're reviewing code from humans, share knowledge and encouragement as much as you share bugs or unmet technical requirements.

If you must reviewing code from an LLM, strengthen your automated code-quality verification tooling and make sure that its agentic loop will fail on its own when those quality checks fail immediately next time. Do not fall into the trap of appealing to its feelings, knowledge, or experience, because it doesn't have any of those things.

But for both humans and LLMs, do not fall into the trap of thinking that your code review process is catching your bugs. That's not its job.

Acknowledgments

Thank you to my patrons who are supporting my writing on this blog. If you like what you've read here and you'd like to read more of it, or you'd like to support my various open-source endeavors, you can support my work as a sponsor!

04 Mar 2026 5:24am GMT

22 Jan 2026 9:43am GMT

22 Jan 2026 9:43am GMT

22 Jan 2026 9:43am GMT