A source code beautifier for C, C++, C#, ObjectiveC, D, Java, Pawn and VALA
- highly configurable - 655 configurable options as of version 0.68
-
add/remove spaces
sp_before_sparen
: Add or remove space before '(' of 'if', 'for', 'switch', 'while', etc.sp_compare
: Add or remove space around compare operator '<', '>', '==', etc
-
add/remove newlines
nl_if_brace
: Add or remove newline between 'if' and '{'nl_brace_while
: Add or remove newline between '}' and 'while' of 'do' statement
-
add/remove blanklines
eat_blanks_before_close_brace
: Whether to remove blank lines before '}'nl_max
: The maximum consecutive newlines (3 = 2 blank lines)
-
indent code
indent_switch_case
: indent_switch_case: Spaces to indent 'case' from 'switch'indent_class_colon
: Whether to indent the stuff after a leading base class colon
-
align code
align_func_params
: Align variable definitions in prototypes and functionsalign_struct_init_span
: The span for aligning struct initializer values (0=don't align)
-
modify code
mod_full_brace_for
: Add or remove braces on single-line 'for' statementmod_paren_on_return
: Add or remove unnecessary paren on 'return' statement
Here is an example configuration file, and here is a before and after C source example. That should give you a pretty good idea of what Uncrustify can do.
Pre compiled binaries for Windows can be downloaded here.
Python is an "interpreted high-level programming language for general-purpose programming", for this project it is needed to extend the capabilities of CMake.
CMake is a tool that generates build systems (Makefiles, Visual Studio project files, Xcode project files and others).
To generate a build system for Uncrustify using CMake, create a build folder and run CMake from it:
$ mkdir build
$ cd build
$ cmake ..
(Use cmake -G Xcode ..
for Xcode)
Then use the build tools of your build system (in many cases this will
simply be make
, but on Windows it could be MSBuild or Visual Studio).
Or use CMake to invoke it:
$ cmake --build .
If testing is enabled, CMake generates a test
target, which you can
build using your build system tools (usually make test
). This can also
be invoked using CTest:
$ ctest -V -C Debug
There is also an install
target, which can be used to install the
Uncrustify executable (typically make install
).
Some build systems are single-configuration, which means you specify the
build type when running CMake (by setting the CMAKE_BUILD_TYPE
variable), and the generated files then build that configuration.
An example of a single-configuration build system are Makefiles. You can build the Release configuration of Uncrustify (from the build folder) with:
$ cmake -DCMAKE_BUILD_TYPE=Release ..
$ make
Other build systems are multi-configuration, which means you specify the build type when building.
An example of a multi-configuration build system are Visual Studios project
files. When you open the project in Visual Studio, you can select which
configuration to build. You can also do this while building from the
command line with cmake --build . --config Release
.
Post any bugs to the issue tracker found on the projects GitHub page: https://github.com/uncrustify/uncrustify/issues
Please include the following with your issue:
- a description of what is not working right
- input code sufficient to demonstrate the issue
- expected output code
- configuration options used to generate the output
More about this is in the ISSUE_TEMPLATE
If you want to add a feature, fix a bug, or implement missing functionality, feel free to do so! Patches are welcome! Here are some areas that need attention:
- Patches for Objective-C support. We really need someone who knows this language as it has more than plenty open issues. A good starting point would be to integrate changes made in the Unity fork
- Test Java support and provide feedback (or patches!)
- Test Embedded SQL to see what works
- A logo of some sort
- Anything else that you want to do to make it better?
Firstly take a look at the CONTRIBUTING.md
Currently we have two continuous integration systems that test your PRs, TravisCI and Appveyor. Tested are the test cases, the formatting of the code base and the output of the command line options.
Test cases can be found in the tests/
directory. Every file ending with
.test
is a test set. Inside each line with these components is a
single test: testNr[!] testConfigFileName testInputFileName [lang]
The configuration file testConfigFileName
has to be located inside tests/config
,
the input file testInputFileName
inside tests/input/<testSetName>/
,
and expected results file inside the tests/expected/<testSetName>/
directory.
Expected results have the following naming convention: testNr-testConfigFileName
.
Optionally a !
can follow the testNr
to enable a custom rerun
configuration.
Rerun configurations need to be named like this:
testConfigFileName
(without extension)+.rerun
+.exension
Also, optionally a language for the input can be provided with lang
.
The codebase has to be formatted by the options set up in
forUncrustifySources.cfg
. Failing to format the sources correctly will
cause TravisCI build failures.
The Command line interface (CLI) output is tested by the
test_cli_options.sh
script. It is located inside of tests/cli/
and operates
on the subdirectories of that folder.
If a PR is altering the CLI output, files inside those directories might
need to be manually updated. This often happens when options are
added, removed or altered. Keep in mind that the version string line
(example: # Uncrustify-0.65_f
) of outputs from commands like
--show-config
should be replaced with a blank line.
We are pretty sure that nothing OS-specific is used in the code base. The software has been previously tested on the following operating systems:
- Linux
- QNX
- OS X
- FreeBSD, NetBSD, OpenBSD
- Sun Solaris 9
- Windows (binary available)
NOTE This application works reasonably well but it has bugs. Do not apply it on your whole codebase without checking the results!
Here are ways to run it:
$ uncrustify -c mystyle.cfg -f somefile.c -o somefile.c.unc
$ uncrustify -c mystyle.cfg -f somefile.c > somefile.c.unc
$ uncrustify -c mystyle.cfg somefile.c
$ uncrustify -c mystyle.cfg --no-backup somefile.c
$ uncrustify -c mystyle.cfg *.c
$ uncrustify -c mystyle.cfg --no-backup *.c
The -c
flag selects the configuration file.
The -f
flag specifies the input file.
The -o
flag specifies the output file.
If flag -f
is used without flag -o
the output will be send to stdout
.
Alternatively multiple or single files that should be processed can be
specified at the command end without flags.
If the flag --no-backup
is missing, every file saved with the initial
name and an additional suffix (can be changed with --suffix).
For more options descriptions call:
$ uncrustify -h
Uncrustify usually reads configuration files that are passed via the -c
flag. If the flag is not provided Uncrustify will try to find a
configuration file via the UNCRUSTIFY_CONFIG
environment variable or a
file with the name uncrustify
or .uncrustify
in your home folder.
To get a list of:
-
all available options use:
uncrustify --show-config
-
all available options in a usable configuration file format use:
uncrustify --update-config
or
uncrustify --update-config-with-doc
As the names suggest both options can produce output that adds newly introduced options to your old configuration file. For this your old configuration file has to be passed via the
-c
flag:uncrustify --update-config-with-doc -c path/to/your.cfg
Example configuration files that can be used as a starting point can be
found in the etc/
directory (such as ben.cfg).
Modify to your liking. Use a quality side-by-side diff tool to determine if the program did what you wanted. Repeat until your style is refined.
To ease the process a bit, some 3rd party tools are available:
- Universal Indent GUI - A cross-platform graphical configuration file editor for many code beautifiers, including Uncrustify.
- uncrustify_config - A web configuration tool based on Uncrustifys emscripten interface.
- UncrustifyX - Uncrustify utility and documentation browser for Mac OS X