clang-format¶
clang-format
is a tool to format C/C++/… code according to
a set of rules and heuristics. Like most tools, it is not perfect
nor covers every single case, but it is good enough to be helpful.
clang-format
can be used for several purposes:
Quickly reformat a block of code to the kernel style. Specially useful when moving code around and aligning/sorting. See clangformatreformat.
Spot style mistakes, typos and possible improvements in files you maintain, patches you review, diffs, etc. See clangformatreview.
Help you follow the coding style rules, specially useful for those new to kernel development or working at the same time in several projects with different coding styles.
Its configuration file is .clang-format
in the root of the kernel tree.
The rules contained there try to approximate the most common kernel
coding style. They also try to follow Documentation/process/coding-style.rst
as much as possible. Since not all the kernel follows the same style,
it is possible that you may want to tweak the defaults for a particular
subsystem or folder. To do so, you can override the defaults by writing
another .clang-format
file in a subfolder.
The tool itself has already been included in the repositories of popular
Linux distributions for a long time. Search for clang-format
in
your repositories. Otherwise, you can either download pre-built
LLVM/clang binaries or build the source code from:
See more information about the tool at:
Review files and patches for coding style¶
By running the tool in its inline mode, you can review full subsystems, folders or individual files for code style mistakes, typos or improvements.
To do so, you can run something like:
# Make sure your working directory is clean!
clang-format -i kernel/*.[ch]
And then take a look at the git diff.
Counting the lines of such a diff is also useful for improving/tweaking
the style options in the configuration file; as well as testing new
clang-format
features/versions.
clang-format
also supports reading unified diffs, so you can review
patches and git diffs easily. See the documentation at:
To avoid clang-format
formatting some portion of a file, you can do:
int formatted_code;
// clang-format off
void unformatted_code ;
// clang-format on
void formatted_code_again;
While it might be tempting to use this to keep a file always in sync with
clang-format
, specially if you are writing new files or if you are
a maintainer, please note that people might be running different
clang-format
versions or not have it available at all. Therefore,
you should probably refrain yourself from using this in kernel sources;
at least until we see if clang-format
becomes commonplace.
Reformatting blocks of code¶
By using an integration with your text editor, you can reformat arbitrary blocks (selections) of code with a single keystroke. This is specially useful when moving code around, for complex code that is deeply intended, for multi-line macros (and aligning their backslashes), etc.
Remember that you can always tweak the changes afterwards in those cases where the tool did not do an optimal job. But as a first approximation, it can be very useful.
There are integrations for many popular text editors. For some of them, like vim, emacs, BBEdit and Visual Studio you can find support built-in. For instructions, read the appropiate section at:
For Atom, Eclipse, Sublime Text, Visual Studio Code, XCode and other editors and IDEs you should be able to find ready-to-use plugins.
For this use case, consider using a secondary .clang-format
so that you can tweak a few options. See clangformatextra.
Missing support¶
clang-format
is missing support for some things that are common
in kernel code. They are easy to remember, so if you use the tool
regularly, you will quickly learn to avoid/ignore those.
In particular, some very common ones you will notice are:
Aligned blocks of one-line
#defines
, e.g.:#define TRACING_MAP_BITS_DEFAULT 11 #define TRACING_MAP_BITS_MAX 17 #define TRACING_MAP_BITS_MIN 7vs.:
#define TRACING_MAP_BITS_DEFAULT 11 #define TRACING_MAP_BITS_MAX 17 #define TRACING_MAP_BITS_MIN 7Aligned designated initializers, e.g.:
static const struct file_operations uprobe_events_ops = { .owner = THIS_MODULE, .open = probes_open, .read = seq_read, .llseek = seq_lseek, .release = seq_release, .write = probes_write, };vs.:
static const struct file_operations uprobe_events_ops = { .owner = THIS_MODULE, .open = probes_open, .read = seq_read, .llseek = seq_lseek, .release = seq_release, .write = probes_write, };
Extra features/options¶
Some features/style options are not enabled by default in the configuration file in order to minimize the differences between the output and the current code. In other words, to make the difference as small as possible, which makes reviewing full-file style, as well diffs and patches as easy as possible.
In other cases (e.g. particular subsystems/folders/files), the kernel style might be different and enabling some of these options may approximate better the style there.
For instance:
Aligning assignments (
AlignConsecutiveAssignments
).Aligning declarations (
AlignConsecutiveDeclarations
).Reflowing text in comments (
ReflowComments
).Sorting
#includes
(SortIncludes
).
They are typically useful for block re-formatting, rather than full-file.
You might want to create another .clang-format
file and use that one
from your editor/IDE instead.