Run tests on each distinct tree in a revision list, skipping versions whose contents have already been tested.
The 99% example is simply:
git test -v
By default it uses heuristics to try to determine what "local commits" to
test, but you can supply another ref spec. git-test
looks at each commit and
checks the hash of the directory tree against the cache. You can also configure
a ref (usually a branch) to test against, per repo or or per branch.
From the point of view of git-test
, a test can be any shell command and a
test is considered successful if that shell command returns with a 0
exit
status. This means git-test
can be used both for specialised tests of a
single feature or failure mode or for running a comprehensive set of automated
tests. The cache is keyed on both directory tree and test, so it won't confuse
the unit tests with the integration tests, or a specific regression test.
An important design goal for git-test
has been to make it convenient to use.
Ideally, you should have a work flow where you run your unit tests whenever you save and run unit tests on all your local commits whenever you've done something with version control.
For ease, git-test
offers a few advantages over a simple for loop over a
git rev-list
:
- By default it spends some effort on working out which commits to test.
- Cached results, which are keyed to tree contents, rather than commit. This means that commits can be amended or reordered, but only content trees that have never been tested before will be tested.
- Separate pre- and post-action hooks, the results of which don't actually factor into the test result. (Useful if cleaning fails if there is nothing to clean, for instance.)
- Configuration of housekeeping and verification steps using
git config
,- environment variables or
- command line arguments
- Selective redo, for where you trust failures but not successes, vice versa, or trust nothing.
- Save output (both
STDOUT
andSTDERR
) from cleaning and verifying to an easily referenced symlink farm.
Mostly just this:
git config test.verify "test command that returns nonzero on fail"
to default to testing against origin/master:
git config test.branch origin/master
to do the same, but for a single branch:
git config branch.mybranch.test parentbranch
To try the test script with different shells:
for sh in /bin/dash /bin/bash /bin/ksh /bin/mksh /bin/pdksh; do
echo $sh
sh test.sh -s $sh
done
Note that since version 1.0.2, the shebang is set to /bin/bash
. Other shells
are now supported on a "patches welcome" basis. (This is largely because I
couldn't find a shell I could run in my GNU/Linux environment that behaves
like the OS X (FreeBSD?) sh
shell, which has very different behaviour from
all the others.)
To regression test properly:
rev=$(git rev-parse --short HEAD)
cp test.sh regressions_${rev}.sh
GIT_TEST_VERIFY="sh regressions_${rev}.sh" git test -v
(The reason for copying the script is to test each commit against the new tests, and the reason for naming it based on the current commit is to key the cache correctly.)
You can just have the git-test
script in your PATH
, but there are other
options:
If you have Homebrew installed, you can install
git-test
with:
$ brew install git-test
Aside from the packaging, you can also install from source. It's a single
POSIX shell script that uses core git, so all that's required for plain git test
to work (besides git, of course) is that git-test
needs to be
somewhere in your PATH
(or GIT_EXEC_PATH
).
You can install from source by doing the following:
$ install git-test /usr/local/bin
$ install git-test.1 /usr/local/share/man1
Or just add this directory to your PATH
environment variable.
The usual
$ fakeroot debian/rules binary
Should give you a Debian package.
With Arch Linux, you can use the provided PKGBUILD
file. Simply download the
file and run makepkg
in the same directory as the file. It will always build
the latest git
version of this package, even if you have an old checkout.