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Ubuntu Make

Ubuntu Make is a project designed to enable quick and easy setup of common needs for developers on Ubuntu.

Get it from the Snap Store

Current project health

TestStatus
Style check testsStyle tests
Url availability checkUrl parsing

Translation status

Installing

SNAP

$ snap install ubuntu-make --classic

If installed via the snap it can be run as ubuntu-make.umake, or via the alias umake

Ubuntu Make interacts heavily with the system, in particular with the apt database. Confined or devmode snaps aren’t able to do that.

Transitioning to a classic snap gives us the same power than a debian package on this regard, while still enabling for a smoother transition.

More information on this confined snap is available at https://didrocks.fr/2017/07/05/ubuntu-make-as-a-classic-snap-intro/

PPA

There is also a daily built ppa:

sudo add-apt-repository ppa:lyzardking/ubuntu-make
sudo apt-get update
sudo apt-get install ubuntu-make

If you are running deb-get, then you can simply run:

deb-get install ubuntu-make

Listing

Umake has three listing options:

Running the command line tool

To run the tool:

$ ./umake

You can use --help to get more information and change the verbosity of the output with -v, -vv.

Requirements

Note that this project uses python3 and requires at least python 3.3. All commands use the python 3 version. There are directions later on explaining how to install the corresponding virtualenv.

Shell completion

To enable shell completion on bash or zsh, just run:

$ . enable_completion

Different level of logging

Multiple logging profiles are available in confs/ to be able to have different traces of your execution (particularly useful for debugging). For instance, you will find:

Under normal circumstances, we expect error.log to remain empty../

To load one of those logging profiles:

$ LOG_CFG=confs/debug.logcfg bin/umake

Development

Providing user's framework

It's possible for anyone to have local frameworks for either development purposes or for special local or team use-cases.

Any file should eventually contain a category or frameworks like the ones in umake/frameworks/*.

If category names are duplicated only one will be loaded. Ubuntu Make will first load the one controlled by the environment variable, then the one located in the home based directory, and finally, the system one. Note that duplicate filenames are supported but not encouraged.

Style guide and checking

We are running pep8, but the max line length has been relaxed to 120. env/ is excluded from the pep8 check as well.

Running this test, in particular:

$ ./runtests pep8

This will run those pep8 checks on the code.

You can also run the pycodestyle or pep8 tool directly from the project directory:

$ pycodestyle/pep8 .

Tests

Types of tests

There are four types of tests that can be combined in runtests:

To run all the tests, with coverage report:

$ ./runtests

Running some tests with all debug info

By default, runtests will not display any debug output if the tests are successful, similar to pytest. However, if only tests are selected, runtests will a display full debug log,

$  ./runtests tests/small/test_tools.py::TestConfigHandler

More information on runtests

runtests is a small pytest wrapper used to simplify the testing process. By default, if no arguments are supplied, runtests will run all available tests on the project using the production nose configuration. It is possible to run only some types of tests:

$ ./runtests small medium

This will only run small and medium tests, with all pytest defaults (no profile is selected).

Finally, you can run a selection of one or more tests:

$ ./runtests tests/small/test_tools.py::TestConfigHandler

You can activate/disable/change any of those default selected configurations with --config/--coverage/--debug/ (see runtests --help for more information)

Check for Python warnings:

runtests is compatible with showing the Python warnings:

$ PYTHONWARNINGS=d ./runtests

Create your own environment and run from it

For an easier development workflow, we encourage the use of virtualenv to test and iterate on the project rather than installing all the requirements on your machine. In the project root directory run (env/ is already in .gitignore and excluded from pep8 checking):

$ virtualenv --python=python3 --system-site-packages env
$ sudo apt-get install -qq python3-apt # use the system version of python apt
$ sudo apt-get install -qq python3-gi # not installable with pypi
$ sudo apt-get install -qq bzr python3-dev # requires for pip install -r
$ env/bin/pip install -r requirements.txt
$ source env/bin/activate
$ bin/umake

Developing using system package

Instead of using a virtual environment, you can install system packages to be able to run the Ubuntu Make tests. The build dependencies are listed in debian/control and should be available in recent Ubuntu versions.

Release management

Refresh .pot files:

$ ./setup.py update_pot