Closes #6123.
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Guidelines For Developers
This document provides guidelines for making changes to the fish-shell project. This includes rules for how to format the code, naming conventions, et cetera. Generally known as the style of the code. It also includes recommended best practices such as creating a Travis CI account so you can verify that your changes pass all the tests before making a pull request.
See the bottom of this document for help on installing the linting and style reformatting tools discussed in the following sections.
Fish source should limit the C++ features it uses to those available in C++11. It should not use exceptions.
Before introducing a new dependency, please make it optional with graceful failure if possible. Add any new dependencies to the README.md under the Running and/or Building sections.
Versioning
The fish version is constructed by the build_tools/git_version_gen.sh script. For developers the version is the branch name plus the output of git describe --always --dirty
. Normally the main part of the version will be the closest annotated tag. Which itself is usually the most recent release number (e.g., 2.6.0
).
Include What You Use
You should not depend on symbols being visible to a *.cpp
module from #include
statements inside another header file. In other words if your module does #include "common.h"
and that header does #include "signal.h"
your module should not assume the sub-include is present. It should instead directly #include "signal.h"
if it needs any symbol from that header. That makes the actual dependencies much clearer. It also makes it easy to modify the headers included by a specific header file without having to worry that will break any module (or header) that includes a particular header.
To help enforce this rule the make lint
(and make lint-all
) command will run the include-what-you-use tool. You can find the IWYU project on github.
To install the tool on OS X you'll need to add a formula then install it:
brew tap jasonmp85/iwyu
brew install iwyu
On Ubuntu you can install it via apt-get
:
sudo apt-get install iwyu
Lint Free Code
Automated analysis tools like cppcheck and oclint can point out potential bugs or code that is extremely hard to understand. They also help ensure the code has a consistent style and that it avoids patterns that tend to confuse people.
Ultimately we want lint free code. However, at the moment a lot of cleanup is required to reach that goal. For now simply try to avoid introducing new lint.
To make linting the code easy there are two make targets: lint
and lint-all
. The latter does exactly what the name implies. The former will lint any modified but not committed *.cpp
files. If there is no uncommitted work it will lint the files in the most recent commit.
Fish has custom cppcheck rules in the file .cppcheck.rule
. These help catch mistakes such as using wcwidth()
rather than fish_wcwidth()
. Please add a new rule if you find similar mistakes being made.
Fish also depends on diff
and expect
for its tests.
Dealing With Lint Warnings
You are strongly encouraged to address a lint warning by refactoring the code, changing variable names, or whatever action is implied by the warning.
Suppressing Lint Warnings
Once in a while the lint tools emit a false positive warning. For example, cppcheck might suggest a memory leak is present when that is not the case. To suppress that cppcheck warning you should insert a line like the following immediately prior to the line cppcheck warned about:
// cppcheck-suppress memleak // addr not really leaked
The explanatory portion of the suppression comment is optional. For other types of warnings replace "memleak" with the value inside the parenthesis (e.g., "nullPointerRedundantCheck") from a warning like the following:
[src/complete.cpp:1727]: warning (nullPointerRedundantCheck): Either the condition 'cmd_node' is redundant or there is possible null pointer dereference: cmd_node.
Suppressing oclint warnings is more complicated to describe so I'll refer you to the OCLint HowTo on the topic.
Ensuring Your Changes Conform to the Style Guides
The following sections discuss the specific rules for the style that should be used when writing fish code. To ensure your changes conform to the style rules you simply need to run
build_tools/style.fish
before committing your change. That will run git-clang-format
to rewrite only the lines you're modifying.
If you've already committed your changes that's okay since it will then check the files in the most recent commit. This can be useful after you've merged another person's change and want to check that it's style is acceptable. However, in that case it will run clang-format
to ensure the entire file, not just the lines modified by the commit, conform to the style.
If you want to check the style of the entire code base run
build_tools/style.fish --all
That command will refuse to restyle any files if you have uncommitted changes.
Configuring Your Editor for Fish C++ Code
ViM
As of ViM 7.4 it does not recognize triple-slash comments as used by Doxygen and the OS X Xcode IDE to flag comments that explain the following C symbol. This means the gq
key binding to reformat such comments doesn't behave as expected. You can fix that by adding the following to your vimrc:
autocmd Filetype c,cpp setlocal comments^=:///
If you use ViM I recommend the vim-clang-format plugin by @rhysd.
You can also get ViM to provide reasonably correct behavior by installing
http://www.vim.org/scripts/script.php?script_id=2636
Emacs
If you use Emacs: TBD
Configuring Your Editor for Fish Scripts
If you use ViM: Install vim-fish, make sure you have syntax and filetype functionality in ~/.vimrc
:
syntax enable
filetype plugin indent on
Then turn on some options for nicer display of fish scripts in ~/.vim/ftplugin/fish.vim
:
" Set up :make to use fish for syntax checking.
compiler fish
" Set this to have long lines wrap inside comments.
setlocal textwidth=79
" Enable folding of block structures in fish.
setlocal foldmethod=expr
If you use Emacs: Install fish-mode (also available in melpa and melpa-stable) and (setq-default indent-tabs-mode nil)
for it (via a hook or in use-package
s ":init" block). It can also be made to run fish_indent via e.g.
(add-hook 'fish-mode-hook (lambda ()
(add-hook 'before-save-hook 'fish_indent-before-save)))
Suppressing Reformatting of C++ Code
If you have a good reason for doing so you can tell clang-format
to not reformat a block of code by enclosing it in comments like this:
// clang-format off
code to ignore
// clang-format on
However, as I write this there are no places in the code where we use this and I can't think of any legitimate reasons for exempting blocks of code from clang-format.
Fish Script Style Guide
-
All fish scripts, such as those in the share/functions and tests directories, should be formatted using the
fish_indent
command. -
Function names should be in all lowercase with words separated by underscores. Private functions should begin with an underscore. The first word should be
fish
if the function is unique to fish. -
The first word of global variable names should generally be
fish
for public vars or_fish
for private vars to minimize the possibility of name clashes with user defined vars.
C++ Style Guide
-
The Google C++ Style Guide forms the basis of the fish C++ style guide. There are two major deviations for the fish project. First, a four, rather than two, space indent. Second, line lengths up to 100, rather than 80, characters.
-
The
clang-format
command is authoritative with respect to indentation, whitespace around operators, etc. -
All names in code should be
small_snake_case
. No Hungarian notation is used. The names for classes and structs should be followed by_t
. -
Always attach braces to the surrounding context.
-
Indent with spaces, not tabs and use four spaces per indent.
-
Document the purpose of a function or class with doxygen-style comment blocks. e.g.:
/**
* Sum numbers in a vector.
*
* @param values Container whose values are summed.
* @return sum of `values`, or 0.0 if `values` is empty.
*/
double sum(std::vector<double> & const values) {
...
}
*/
or
/// brief description of somefunction()
void somefunction() {
Testing
The source code for fish includes a large collection of tests. If you are making any changes to fish, running these tests is mandatory to make sure the behaviour remains consistent and regressions are not introduced. Even if you don't run the tests on your machine, they will still be run via the Travis CI service.
You are strongly encouraged to add tests when changing the functionality of fish, especially if you are fixing a bug to help ensure there are no regressions in the future (i.e., we don't reintroduce the bug).
Local testing
The tests can be run on your local computer on all operating systems.
cmake path/to/fish-shell
make test
Travis CI Build and Test
The Travis Continuous Integration services can be used to test your changes using multiple configurations. This is the same service that the fish-shell project uses to ensure new changes haven't broken anything. Thus it is a really good idea that you leverage Travis CI before making a pull request to avoid potential embarrassment at breaking the build.
You will need to fork the fish-shell repository on GitHub, then setup Travis to test your changes before making a pull request.
- Sign in to Travis CI with your GitHub account, accepting the GitHub access permissions confirmation.
- Once you're signed in and your repositories are synchronized, go to your profile page and enable the fish-shell repository.
- Push your changes to GitHub.
You'll receive an email when the tests are complete telling you whether or not any tests failed.
You'll find the configuration used to control Travis in the .travis.yml
file.
Git hooks
Since developers sometimes forget to run the tests, it can be helpful to use git hooks (see githooks(5)) to automate it.
One possibility is a pre-push hook script like this one:
#!/bin/sh
#### A pre-push hook for the fish-shell project
# This will run the tests when a push to master is detected, and will stop that if the tests fail
# Save this as .git/hooks/pre-push and make it executable
protected_branch='master'
# Git gives us lines like "refs/heads/frombranch SOMESHA1 refs/heads/tobranch SOMESHA1"
# We're only interested in the branches
while read from _ to _; do
if [ "x$to" = "xrefs/heads/$protected_branch" ]; then
isprotected=1
fi
done
if [ "x$isprotected" = x1 ]; then
echo "Running tests before push to master"
make test
RESULT=$?
if [ $RESULT -ne 0 ]; then
echo "Tests failed for a push to master, we can't let you do that" >&2
exit 1
fi
fi
exit 0
This will check if the push is to the master branch and, if it is, only allow the push if running make test
succeeds. In some circumstances it may be advisable to circumvent this check with git push --no-verify
, but usually that isn't necessary.
To install the hook, place the code in a new file .git/hooks/pre-push
and make it executable.
Coverity Scan
We use Coverity's static analysis tool which offers free access to open source projects. While access to the tool itself is restricted, fish-shell organization members should know that they can login here with their GitHub account. Currently, tests are triggered upon merging the master
branch into coverity_scan_master
. Even if you are not a fish developer, you can keep an eye on our statistics there.
Installing the Required Tools
Installing the Linting Tools
To install the lint checkers on Mac OS X using Homebrew:
brew tap oclint/formulae
brew install oclint
brew install cppcheck
To install the lint checkers on Debian-based Linux distributions:
sudo apt-get install clang
sudo apt-get install oclint
sudo apt-get install cppcheck
Installing the Reformatting Tools
Mac OS X:
brew install clang-format
Debian-based:
apt-cache search clang-format
Above will list all the versions available. Pick the newest one available (3.9 for Ubuntu 16.10 as I write this) and install it:
sudo apt-get install clang-format-3.9
sudo ln -s /usr/bin/clang-format-3.9 /usr/bin/clang-format
Message Translations
Fish uses the GNU gettext library to translate messages from English to other languages.
All non-debug messages output for user consumption should be marked for translation. In C++, this requires the use of the _
(underscore) macro:
streams.out.append_format(_(L"%ls: There are no jobs\n"), argv[0]);
All messages in fish script must be enclosed in single or double quote characters. They must also be translated via a subcommand. This means that the following are not valid:
echo (_ hello)
_ "goodbye"
Above should be written like this instead:
echo (_ "hello")
echo (_ "goodbye")
Note that you can use either single or double quotes to enclose the message to be translated. You can also optionally include spaces after the opening parentheses and once again before the closing parentheses.
Creating and updating translations requires the Gettext tools, including xgettext
, msgfmt
and msgmerge
. Translation sources are stored in the po
directory, named LANG.po
, where LANG
is the two letter ISO 639-1 language code of the target language (eg de
for German).
To create a new translation, for example for German:
- generate a
messages.pot
file by runningbuild_tools/fish_xgettext.fish
from the source tree - copy
messages.pot
topo/LANG.po
()
To update a translation:
- generate a
messages.pot
file by runningbuild_tools/fish_xgettext.fish
from the source tree - update the existing translation by running
msgmerge --update --no-fuzzy-matching po/LANG.po messages.pot
Many tools are available for editing translation files, including command-line and graphical user interface programs.
Be cautious about blindly updating an existing translation file. Trivial changes to an existing message (eg changing the punctuation) will cause existing translations to be removed, since the tools do literal string matching. Therefore, in general, you need to carefully review any recommended deletions.
Read the translations wiki for more information.