Something that is untested is broken.
The origin of this quote is unknown and while it is not entirely correct, it is also not far from the truth. Untested applications make it hard to improve existing code and developers of untested applications tend to become pretty paranoid. If an application has automated tests, you can safely make changes and instantly know if anything breaks.
Flask provides a way to test your application by exposing the Werkzeug test Client
and handling the context locals for you. You can then use that with your favourite testing solution.
In this documentation we will use the pytest package as the base framework for our tests. You can install it with pip
, like so:
$ pip install pytest
First, we need an application to test; we will use the application from the Tutorial. If you don’t have that application yet, get the source code from the examples.
We begin by adding a tests directory under the application root. Then create a Python file to store our tests (test_flaskr.py
). When we format the filename like test_*.py
, it will be auto-discoverable by pytest.
Next, we create a pytest fixture called client()
that configures the application for testing and initializes a new database:
import os import tempfile import pytest from flaskr import flaskr @pytest.fixture def client(): db_fd, flaskr.app.config['DATABASE'] = tempfile.mkstemp() flaskr.app.config['TESTING'] = True with flaskr.app.test_client() as client: with flaskr.app.app_context(): flaskr.init_db() yield client os.close(db_fd) os.unlink(flaskr.app.config['DATABASE'])
This client fixture will be called by each individual test. It gives us a simple interface to the application, where we can trigger test requests to the application. The client will also keep track of cookies for us.
During setup, the TESTING
config flag is activated. What this does is disable error catching during request handling, so that you get better error reports when performing test requests against the application.
Because SQLite3 is filesystem-based, we can easily use the tempfile
module to create a temporary database and initialize it. The mkstemp()
function does two things for us: it returns a low-level file handle and a random file name, the latter we use as database name. We just have to keep the db_fd
around so that we can use the os.close()
function to close the file.
To delete the database after the test, the fixture closes the file and removes it from the filesystem.
If we now run the test suite, we should see the following output:
$ pytest ================ test session starts ================ rootdir: ./flask/examples/flaskr, inifile: setup.cfg collected 0 items =========== no tests ran in 0.07 seconds ============
Even though it did not run any actual tests, we already know that our flaskr
application is syntactically valid, otherwise the import would have died with an exception.
Now it’s time to start testing the functionality of the application. Let’s check that the application shows “No entries here so far” if we access the root of the application (/
). To do this, we add a new test function to test_flaskr.py
, like this:
def test_empty_db(client): """Start with a blank database.""" rv = client.get('/') assert b'No entries here so far' in rv.data
Notice that our test functions begin with the word test
; this allows pytest to automatically identify the function as a test to run.
By using client.get
we can send an HTTP GET
request to the application with the given path. The return value will be a response_class
object. We can now use the data
attribute to inspect the return value (as string) from the application. In this case, we ensure that 'No entries here so far'
is part of the output.
Run it again and you should see one passing test:
$ pytest -v ================ test session starts ================ rootdir: ./flask/examples/flaskr, inifile: setup.cfg collected 1 items tests/test_flaskr.py::test_empty_db PASSED ============= 1 passed in 0.10 seconds ==============
The majority of the functionality of our application is only available for the administrative user, so we need a way to log our test client in and out of the application. To do this, we fire some requests to the login and logout pages with the required form data (username and password). And because the login and logout pages redirect, we tell the client to follow_redirects
.
Add the following two functions to your test_flaskr.py
file:
def login(client, username, password): return client.post('/login', data=dict( username=username, password=password ), follow_redirects=True) def logout(client): return client.get('/logout', follow_redirects=True)
Now we can easily test that logging in and out works and that it fails with invalid credentials. Add this new test function:
def test_login_logout(client): """Make sure login and logout works.""" rv = login(client, flaskr.app.config['USERNAME'], flaskr.app.config['PASSWORD']) assert b'You were logged in' in rv.data rv = logout(client) assert b'You were logged out' in rv.data rv = login(client, flaskr.app.config['USERNAME'] + 'x', flaskr.app.config['PASSWORD']) assert b'Invalid username' in rv.data rv = login(client, flaskr.app.config['USERNAME'], flaskr.app.config['PASSWORD'] + 'x') assert b'Invalid password' in rv.data
We should also test that adding messages works. Add a new test function like this:
def test_messages(client): """Test that messages work.""" login(client, flaskr.app.config['USERNAME'], flaskr.app.config['PASSWORD']) rv = client.post('/add', data=dict( title='<Hello>', text='<strong>HTML</strong> allowed here' ), follow_redirects=True) assert b'No entries here so far' not in rv.data assert b'<Hello>' in rv.data assert b'<strong>HTML</strong> allowed here' in rv.data
Here we check that HTML is allowed in the text but not in the title, which is the intended behavior.
Running that should now give us three passing tests:
$ pytest -v ================ test session starts ================ rootdir: ./flask/examples/flaskr, inifile: setup.cfg collected 3 items tests/test_flaskr.py::test_empty_db PASSED tests/test_flaskr.py::test_login_logout PASSED tests/test_flaskr.py::test_messages PASSED ============= 3 passed in 0.23 seconds ==============
Besides using the test client as shown above, there is also the test_request_context()
method that can be used in combination with the with
statement to activate a request context temporarily. With this you can access the request
, g
and session
objects like in view functions. Here is a full example that demonstrates this approach:
import flask app = flask.Flask(__name__) with app.test_request_context('/?name=Peter'): assert flask.request.path == '/' assert flask.request.args['name'] == 'Peter'
All the other objects that are context bound can be used in the same way.
If you want to test your application with different configurations and there does not seem to be a good way to do that, consider switching to application factories (see Application Factories).
Note however that if you are using a test request context, the before_request()
and after_request()
functions are not called automatically. However teardown_request()
functions are indeed executed when the test request context leaves the with
block. If you do want the before_request()
functions to be called as well, you need to call preprocess_request()
yourself:
app = flask.Flask(__name__) with app.test_request_context('/?name=Peter'): app.preprocess_request() ...
This can be necessary to open database connections or something similar depending on how your application was designed.
If you want to call the after_request()
functions you need to call into process_response()
which however requires that you pass it a response object:
app = flask.Flask(__name__) with app.test_request_context('/?name=Peter'): resp = Response('...') resp = app.process_response(resp) ...
This in general is less useful because at that point you can directly start using the test client.
New in version 0.10.
A very common pattern is to store user authorization information and database connections on the application context or the flask.g
object. The general pattern for this is to put the object on there on first usage and then to remove it on a teardown. Imagine for instance this code to get the current user:
def get_user(): user = getattr(g, 'user', None) if user is None: user = fetch_current_user_from_database() g.user = user return user
For a test it would be nice to override this user from the outside without having to change some code. This can be accomplished with hooking the flask.appcontext_pushed
signal:
from contextlib import contextmanager from flask import appcontext_pushed, g @contextmanager def user_set(app, user): def handler(sender, **kwargs): g.user = user with appcontext_pushed.connected_to(handler, app): yield
And then to use it:
from flask import json, jsonify @app.route('/users/me') def users_me(): return jsonify(username=g.user.username) with user_set(app, my_user): with app.test_client() as c: resp = c.get('/users/me') data = json.loads(resp.data) self.assert_equal(data['username'], my_user.username)
New in version 0.4.
Sometimes it is helpful to trigger a regular request but still keep the context around for a little longer so that additional introspection can happen. With Flask 0.4 this is possible by using the test_client()
with a with
block:
app = flask.Flask(__name__) with app.test_client() as c: rv = c.get('/?tequila=42') assert request.args['tequila'] == '42'
If you were to use just the test_client()
without the with
block, the assert
would fail with an error because request
is no longer available (because you are trying to use it outside of the actual request).
New in version 0.8.
Sometimes it can be very helpful to access or modify the sessions from the test client. Generally there are two ways for this. If you just want to ensure that a session has certain keys set to certain values you can just keep the context around and access flask.session
:
with app.test_client() as c: rv = c.get('/') assert flask.session['foo'] == 42
This however does not make it possible to also modify the session or to access the session before a request was fired. Starting with Flask 0.8 we provide a so called “session transaction” which simulates the appropriate calls to open a session in the context of the test client and to modify it. At the end of the transaction the session is stored and ready to be used by the test client. This works independently of the session backend used:
with app.test_client() as c: with c.session_transaction() as sess: sess['a_key'] = 'a value' # once this is reached the session was stored and ready to be used by the client c.get(...)
Note that in this case you have to use the sess
object instead of the flask.session
proxy. The object however itself will provide the same interface.
New in version 1.0.
Flask has great support for JSON, and is a popular choice for building JSON APIs. Making requests with JSON data and examining JSON data in responses is very convenient:
from flask import request, jsonify @app.route('/api/auth') def auth(): json_data = request.get_json() email = json_data['email'] password = json_data['password'] return jsonify(token=generate_token(email, password)) with app.test_client() as c: rv = c.post('/api/auth', json={ 'email': '[email protected]', 'password': 'secret' }) json_data = rv.get_json() assert verify_token(email, json_data['token'])
Passing the json
argument in the test client methods sets the request data to the JSON-serialized object and sets the content type to application/json
. You can get the JSON data from the request or response with get_json
.
Click comes with utilities for testing your CLI commands. A CliRunner
runs commands in isolation and captures the output in a Result
object.
Flask provides test_cli_runner()
to create a FlaskCliRunner
that passes the Flask app to the CLI automatically. Use its invoke()
method to call commands in the same way they would be called from the command line.
import click @app.cli.command('hello') @click.option('--name', default='World') def hello_command(name): click.echo(f'Hello, {name}!') def test_hello(): runner = app.test_cli_runner() # invoke the command directly result = runner.invoke(hello_command, ['--name', 'Flask']) assert 'Hello, Flask' in result.output # or by name result = runner.invoke(args=['hello']) assert 'World' in result.output
In the example above, invoking the command by name is useful because it verifies that the command was correctly registered with the app.
If you want to test how your command parses parameters, without running the command, use its make_context()
method. This is useful for testing complex validation rules and custom types.
def upper(ctx, param, value): if value is not None: return value.upper() @app.cli.command('hello') @click.option('--name', default='World', callback=upper) def hello_command(name): click.echo(f'Hello, {name}!') def test_hello_params(): context = hello_command.make_context('hello', ['--name', 'flask']) assert context.params['name'] == 'FLASK'
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Licensed under the BSD 3-clause License.
https://flask.palletsprojects.com/en/1.1.x/testing/