mirror of https://github.com/zulip/zulip.git
350 lines
13 KiB
Markdown
350 lines
13 KiB
Markdown
Testing and writing tests
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=========================
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Running tests
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-------------
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To run the full Zulip test suite, do this:
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```
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./tools/test-all
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```
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Zulip tests must be run inside a Zulip development environment; if
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you're using Vagrant, you will need to enter the Vagrant environment
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before running the tests:
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```
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vagrant ssh
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cd /srv/zulip
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```
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This runs the linter (`tools/lint-all`) plus all of our test suites;
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they can all be run separately (just read `tools/test-all` to see
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them). You can also run individual tests which can save you a lot of
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time debugging a test failure, e.g.:
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```
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./tools/lint-all # Runs all the linters in parallel
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./tools/test-backend zerver.tests.test_bugdown.BugdownTest.test_inline_youtube
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./tools/test-js-with-casper 09-navigation.js
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./tools/test-js-with-node # Runs all node tests but is very fast
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```
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### Schema and initial data changes
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If you change the database schema or change the initial test data, you
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have to regenerate the pristine test database by running
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`tools/do-destroy-rebuild-test-database`.
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### Wiping the test databases
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You should first try running: `tools/do-destroy-rebuild-test-database`
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If that fails you should try to do:
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sudo -u postgres psql
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> DROP DATABASE zulip_test;
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> DROP DATABASE zulip_test_template;
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and then run `tools/do-destroy-rebuild-test-database`
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#### Recreating the postgres cluster
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> **warning**
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>
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> **This is irreversible, so do it with care, and never do this anywhere
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> in production.**
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If your postgres cluster (collection of databases) gets totally trashed
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permissions-wise, and you can't otherwise repair it, you can recreate
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it. On Ubuntu:
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sudo pg_dropcluster --stop 9.1 main
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sudo pg_createcluster --locale=en_US.utf8 --start 9.1 main
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### Backend Django tests
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These live in `zerver/tests/tests.py` and `zerver/tests/test_*.py`. Run
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them with `tools/test-backend`.
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### Web frontend black-box casperjs tests
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These live in `frontend_tests/casper_tests/`. This is a "black box"
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test; we load the frontend in a real (headless) browser, from a real dev
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server, and simulate UI interactions like sending messages, narrowing,
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etc.
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Since this is interacting with a real dev server, it can catch backend
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bugs as well.
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You can run this with `./tools/test-js-with-casper` or as
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`./tools/test-js-with-casper 06-settings.js` to run a single test file
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from `frontend_tests/casper_tests/`.
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#### Debugging Casper.JS
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Casper.js (via PhantomJS) has support for remote debugging. However, it
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is not perfect. Here are some steps for using it and gotchas you might
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want to know.
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To turn on remote debugging, pass `--remote-debug` to the
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`./frontend_tests/run-casper` script. This will run the tests with port
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`7777` open for remote debugging. You can now connect to
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`localhost:7777` in a Webkit browser. Somewhat recent versions of Chrome
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or Safari might be required.
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- When connecting to the remote debugger, you will see a list of
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pages, probably 2. One page called `about:blank` is the headless
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page in which the CasperJS test itself is actually running in. This
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is where your test code is.
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- The other page, probably `localhost:9981`, is the Zulip page that
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the test is testing---that is, the page running our app that our
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test is exercising.
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Since the tests are now running, you can open the `about:blank` page,
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switch to the Scripts tab, and open the running `0x-foo.js` test. If you
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set a breakpoint and it is hit, the inspector will pause and you can do
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your normal JS debugging. You can also put breakpoints in the Zulip
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webpage itself if you wish to inspect the state of the Zulip frontend.
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You can also check the screenshots of failed tests at `/tmp/casper-failure*.png`.
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If you need to use print debugging in casper, you can do using
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`casper.log`; see <http://docs.casperjs.org/en/latest/logging.html> for
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details.
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An additional debugging technique is to enable verbose mode in the
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Casper tests; you can do this by adding to the top of the relevant test
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file the following:
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> var casper = require('casper').create({
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> verbose: true,
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> logLevel: "debug"
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> });
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This can sometimes give insight into exactly what's happening.
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### Web frontend unit tests
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As an alternative to the black-box whole-app testing, you can unit test
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individual JavaScript files that use the module pattern. For example, to
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test the `foobar.js` file, you would first add the following to the
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bottom of `foobar.js`:
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> if (typeof module !== 'undefined') {
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> module.exports = foobar;
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> }
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This makes `foobar.js` follow the CommonJS module pattern, so it can be
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required in Node.js, which runs our tests.
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Now create `frontend_tests/node_tests/foobar.js`. At the top, require
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the [Node.js assert module](http://nodejs.org/api/assert.html), and the
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module you're testing, like so:
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> var assert = require('assert');
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> var foobar = require('js/foobar.js');
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(If the module you're testing depends on other modules, or modifies
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global state, you need to also read [the next
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section](handling-dependencies_).)
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Define and call some tests using the [assert
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module](http://nodejs.org/api/assert.html). Note that for "equal"
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asserts, the *actual* value comes first, the *expected* value second.
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> (function test_somefeature() {
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> assert.strictEqual(foobar.somefeature('baz'), 'quux');
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> assert.throws(foobar.somefeature('Invalid Input'));
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> }());
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The test runner (index.js) automatically runs all .js files in the
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frontend\_tests/node directory.
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#### Coverage reports
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You can automatically generate coverage reports for the JavaScript unit
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tests. To do so, install istanbul:
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> sudo npm install -g istanbul
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And run test-js-with-node with the 'cover' parameter:
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> tools/test-js-with-node cover
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Then open `coverage/lcov-report/js/index.html` in your browser. Modules
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we don't test *at all* aren't listed in the report, so this tends to
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overstate how good our overall coverage is, but it's accurate for
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individual files. You can also click a filename to see the specific
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statements and branches not tested. 100% branch coverage isn't
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necessarily possible, but getting to at least 80% branch coverage is a
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good goal.
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Writing tests
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-------------
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### Writing Casper tests
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Probably the easiest way to learn how to write Casper tests is to study
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some of the existing test files. There are a few tips that can be useful
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for writing Casper tests in addition to the debugging notes below:
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- Run just the file containing your new tests as described above to
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have a fast debugging cycle.
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- With frontend tests in general, it's very important to write your
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code to wait for the right events. Before essentially every action
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you take on the page, you'll want to use `waitForSelector`,
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`waitUntilVisible`, or a similar function to make sure the page or
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elemant is ready before you interact with it. For instance, if you
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want to click a button that you can select via `#btn-submit`, and
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then check that it causes `success-elt` to appear, you'll want to
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write something like:
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casper.waitForSelector("#btn-submit", function () {
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casper.click('#btn-submit')
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casper.test.assertExists("#success-elt");
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});
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This will ensure that the element is present before the interaction
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is attempted. The various wait functions supported in Casper are
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documented in the Casper here:
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<http://docs.casperjs.org/en/latest/modules/casper.html#waitforselector>
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and the various assert statements available are documented here:
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<http://docs.casperjs.org/en/latest/modules/tester.html#the-tester-prototype>
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- Casper uses CSS3 selectors; you can often save time by testing and
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debugging your selectors on the relevant page of the Zulip
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development app in the Chrome javascript console by using e.g.
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`$$("#settings-dropdown")`.
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- The test suite uses a smaller set of default user accounts and other
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data initialized in the database than the development environment;
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to see what differs check out the section related to
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`options["test_suite"]` in
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`zilencer/management/commands/populate_db.py`.
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- Casper effectively runs your test file in two phases -- first it
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runs the code in the test file, which for most test files will just
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collect a series of steps (each being a `casper.then` or
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`casper.wait...` call). Then, usually at the end of the test file,
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you'll have a `casper.run` call which actually runs that series of
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steps. This means that if you write code in your test file outside a
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`casper.then` or `casper.wait...` method, it will actually run
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before all the Casper test steps that are declared in the file,
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which can lead to confusing failures where the new code you write in
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between two `casper.then` blocks actually runs before either of
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them. See this for more details about how Casper works:
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<http://docs.casperjs.org/en/latest/faq.html#how-does-then-and-the-step-stack-work>
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### Handling dependencies in unit tests
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The following scheme helps avoid tests leaking globals between each
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other.
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First, if you can avoid globals, do it, and the code that is directly
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under test can simply be handled like this:
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> var search = require('js/search_suggestion.js');
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For deeper dependencies, you want to categorize each module as follows:
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- Exercise the module's real code for deeper, more realistic testing?
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- Stub out the module's interface for more control, speed, and
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isolation?
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- Do some combination of the above?
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For all the modules where you want to run actual code, add a statement
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like the following to the top of your test file:
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> add_dependencies({
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> _: 'third/underscore/underscore.js',
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> util: 'js/util.js',
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> Dict: 'js/dict.js',
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> Handlebars: 'handlebars',
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> Filter: 'js/filter.js',
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> typeahead_helper: 'js/typeahead_helper.js',
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> stream_data: 'js/stream_data.js',
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> narrow: 'js/narrow.js'
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> });
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For modules that you want to completely stub out, please use a pattern
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like this:
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> set_global('page_params', {
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> email: 'bob@zulip.com'
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> });
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>
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> // then maybe further down
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> global.page_params.email = 'alice@zulip.com';
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Finally, there's the hybrid situation, where you want to borrow some of
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a module's real functionality but stub out other pieces. Obviously, this
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is a pretty strong smell that the other module might be lacking in
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cohesion, but that code might be outside your jurisdiction. The pattern
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here is this:
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> // Use real versions of parse/unparse
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> var narrow = require('js/narrow.js');
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> set_global('narrow', {
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> parse: narrow.parse,
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> unparse: narrow.unparse
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> });
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>
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> // But later, I want to stub the stream without having to call super-expensive
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> // real code like narrow.activate().
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> global.narrow.stream = function () {
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> return 'office';
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> };
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Manual testing (local app + web browser)
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----------------------------------------
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### Clearing the manual testing database
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You can use:
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./tools/do-destroy-rebuild-database
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to drop the database on your development environment and repopulate
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your it with the Shakespeare characters and some test messages between
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them. This is run automatically as part of the development
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environment setup process, but is occasionally useful when you want to
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return to a clean state for testing.
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### JavaScript manual testing
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debug.js has some tools for profiling Javascript code, including:
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- \`print\_elapsed\_time\`: Wrap a function with it to print the time
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that function takes to the javascript console.
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- \`IterationProfiler\`: Profile part of looping constructs (like a
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for loop or \$.each). You mark sections of the iteration body and
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the IterationProfiler will sum the costs of those sections over all
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iterations.
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Chrome has a very good debugger and inspector in its developer tools.
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Firebug for Firefox is also pretty good. They both have profilers, but
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Chrome's is a sampling profiler while Firebug's is an instrumenting
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profiler. Using them both can be helpful because they provide different
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information.
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Python 3 Compatibility
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----------------------
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Zulip is working on supporting Python 3, and all new code in Zulip
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should be Python 2+3 compatible. We have converted most of the codebase
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to be compatible with Python 3 using a suite of 2to3 conversion tools
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and some manual work. In order to avoid regressions in that
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compatibility as we continue to develop new features in zulip, we have a
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special tool, tools/check-py3, which checks all code for Python 3
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syntactic compatibility by running a subset of the automated migration
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tools and checking if they trigger any changes. tools/check-py3 is run
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automatically in Zulip's Travis CI tests to avoid any regressions, but
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is not included in test-all since it is quite slow.
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To run tooks/check-py3, you need to install the modernize and future
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python packages (which are included in requirements/py3k.txt, which
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itself is included in requirements/dev.txt, so you probably already
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have these packages installed).
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To run check-py3 on just the python files in a particular directory, you
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can change the current working directory (e.g. cd zerver/) and run
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check-py3 from there.
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