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853 lines
31 KiB
.. _quickstart: |
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Quickstart |
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========== |
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Eager to get started? This page gives a good introduction to Flask. It |
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assumes you already have Flask installed. If you do not, head over to the |
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:ref:`installation` section. |
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A Minimal Application |
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--------------------- |
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A minimal Flask application looks something like this:: |
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from flask import Flask |
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app = Flask(__name__) |
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@app.route('/') |
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def hello_world(): |
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return 'Hello World!' |
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if __name__ == '__main__': |
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app.run() |
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Just save it as `hello.py` (or something similar) and run it with your Python |
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interpreter. Make sure to not call your application `flask.py` because this |
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would conflict with Flask itself. |
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:: |
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$ python hello.py |
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* Running on http://127.0.0.1:5000/ |
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Now head over to `http://127.0.0.1:5000/ <http://127.0.0.1:5000/>`_, and you |
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should see your hello world greeting. |
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So what did that code do? |
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1. First we imported the :class:`~flask.Flask` class. An instance of this |
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class will be our WSGI application. The first argument is the name of |
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the application's module. If you are using a single module (as in this |
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example), you should use `__name__` because depending on if it's started as |
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application or imported as module the name will be different (``'__main__'`` |
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versus the actual import name). For more information, have a look at the |
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:class:`~flask.Flask` documentation. |
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2. Next we create an instance of this class. We pass it the name of the module |
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or package. This is needed so that Flask knows where to look for templates, |
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static files, and so on. |
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3. We then use the :meth:`~flask.Flask.route` decorator to tell Flask what URL |
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should trigger our function. |
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4. The function is given a name which is also used to generate URLs for that |
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particular function, and returns the message we want to display in the |
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user's browser. |
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5. Finally we use the :meth:`~flask.Flask.run` function to run the local server |
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with our application. The ``if __name__ == '__main__':`` makes sure the |
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server only runs if the script is executed directly from the Python |
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interpreter and not used as imported module. |
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To stop the server, hit control-C. |
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.. _public-server: |
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.. admonition:: Externally Visible Server |
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If you run the server you will notice that the server is only accessible |
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from your own computer, not from any other in the network. This is the |
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default because in debugging mode a user of the application can execute |
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arbitrary Python code on your computer. |
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If you have `debug` disabled or trust the users on your network, you can |
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make the server publicly available simply by changing the call of the |
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:meth:`~flask.Flask.run` method to look like this:: |
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app.run(host='0.0.0.0') |
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This tells your operating system to listen on all public IPs. |
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.. _debug-mode: |
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Debug Mode |
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---------- |
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The :meth:`~flask.Flask.run` method is nice to start a local |
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development server, but you would have to restart it manually after each |
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change to your code. That is not very nice and Flask can do better. If |
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you enable debug support the server will reload itself on code changes, |
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and it will also provide you with a helpful debugger if things go wrong. |
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There are two ways to enable debugging. Either set that flag on the |
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application object:: |
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app.debug = True |
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app.run() |
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Or pass it as a parameter to run:: |
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app.run(debug=True) |
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Both methods have the exact same effect. |
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.. admonition:: Attention |
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Even though the interactive debugger does not work in forking environments |
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(which makes it nearly impossible to use on production servers), it still |
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allows the execution of arbitrary code. This makes it a major security risk |
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and therefore it **must never be used on production machines**. |
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Screenshot of the debugger in action: |
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.. image:: _static/debugger.png |
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:align: center |
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:class: screenshot |
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:alt: screenshot of debugger in action |
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Have another debugger in mind? See :ref:`working-with-debuggers`. |
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Routing |
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------- |
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Modern web applications have beautiful URLs. This helps people remember |
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the URLs, which is especially handy for applications that are used from |
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mobile devices with slower network connections. If the user can directly |
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go to the desired page without having to hit the index page it is more |
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likely they will like the page and come back next time. |
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As you have seen above, the :meth:`~flask.Flask.route` decorator is used to |
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bind a function to a URL. Here are some basic examples:: |
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@app.route('/') |
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def index(): |
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return 'Index Page' |
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@app.route('/hello') |
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def hello(): |
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return 'Hello World' |
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But there is more to it! You can make certain parts of the URL dynamic and |
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attach multiple rules to a function. |
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Variable Rules |
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`````````````` |
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To add variable parts to a URL you can mark these special sections as |
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``<variable_name>``. Such a part is then passed as keyword argument to your |
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function. Optionally a converter can be specified by specifying a rule with |
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``<converter:variable_name>``. Here are some nice examples:: |
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@app.route('/user/<username>') |
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def show_user_profile(username): |
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# show the user profile for that user |
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return 'User %s' % username |
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@app.route('/post/<int:post_id>') |
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def show_post(post_id): |
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# show the post with the given id, the id is an integer |
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return 'Post %d' % post_id |
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The following converters exist: |
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=========== =========================================== |
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`int` accepts integers |
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`float` like `int` but for floating point values |
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`path` like the default but also accepts slashes |
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=========== =========================================== |
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.. admonition:: Unique URLs / Redirection Behavior |
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Flask's URL rules are based on Werkzeug's routing module. The idea |
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behind that module is to ensure beautiful and unique URLs based on |
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precedents laid down by Apache and earlier HTTP servers. |
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Take these two rules:: |
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@app.route('/projects/') |
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def projects(): |
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return 'The project page' |
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@app.route('/about') |
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def about(): |
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return 'The about page' |
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Though they look rather similar, they differ in their use of the trailing |
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slash in the URL *definition*. In the first case, the canonical URL for the |
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`projects` endpoint has a trailing slash. In that sense, it is similar to |
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a folder on a file system. Accessing it without a trailing slash will cause |
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Flask to redirect to the canonical URL with the trailing slash. |
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In the second case, however, the URL is defined without a trailing slash, |
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rather like the pathname of a file on UNIX-like systems. Accessing the URL |
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with a trailing slash will produce a 404 "Not Found" error. |
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This behavior allows relative URLs to continue working if users access the |
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page when they forget a trailing slash, consistent with how Apache |
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and other servers work. Also, the URLs will stay unique, which helps search |
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engines avoid indexing the same page twice. |
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.. _url-building: |
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URL Building |
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```````````` |
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If it can match URLs, can Flask also generate them? Of course it can. To |
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build a URL to a specific function you can use the :func:`~flask.url_for` |
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function. It accepts the name of the function as first argument and a number |
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of keyword arguments, each corresponding to the variable part of the URL rule. |
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Unknown variable parts are appended to the URL as query parameters. Here are |
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some examples: |
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>>> from flask import Flask, url_for |
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>>> app = Flask(__name__) |
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>>> @app.route('/') |
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... def index(): pass |
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... |
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>>> @app.route('/login') |
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... def login(): pass |
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... |
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>>> @app.route('/user/<username>') |
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... def profile(username): pass |
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... |
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>>> with app.test_request_context(): |
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... print url_for('index') |
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... print url_for('login') |
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... print url_for('login', next='/') |
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... print url_for('profile', username='John Doe') |
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... |
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/ |
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/login |
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/login?next=/ |
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/user/John%20Doe |
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(This also uses the :meth:`~flask.Flask.test_request_context` method, explained |
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below. It tells Flask to behave as though it is handling a request, even |
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though we are interacting with it through a Python shell. Have a look at the |
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explanation below. :ref:`context-locals`). |
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Why would you want to build URLs instead of hard-coding them into your |
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templates? There are three good reasons for this: |
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1. Reversing is often more descriptive than hard-coding the URLs. More |
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importantly, it allows you to change URLs in one go, without having to |
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remember to change URLs all over the place. |
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2. URL building will handle escaping of special characters and Unicode |
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data transparently for you, so you don't have to deal with them. |
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3. If your application is placed outside the URL root (say, in |
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``/myapplication`` instead of ``/``), :func:`~flask.url_for` will handle |
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that properly for you. |
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HTTP Methods |
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```````````` |
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HTTP (the protocol web applications are speaking) knows different methods for |
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accessing URLs. By default, a route only answers to `GET` requests, but that |
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can be changed by providing the `methods` argument to the |
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:meth:`~flask.Flask.route` decorator. Here are some examples:: |
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@app.route('/login', methods=['GET', 'POST']) |
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def login(): |
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if request.method == 'POST': |
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do_the_login() |
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else: |
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show_the_login_form() |
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If `GET` is present, `HEAD` will be added automatically for you. You |
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don't have to deal with that. It will also make sure that `HEAD` requests |
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are handled as the `HTTP RFC`_ (the document describing the HTTP |
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protocol) demands, so you can completely ignore that part of the HTTP |
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specification. Likewise, as of Flask 0.6, `OPTIONS` is implemented for you |
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automatically as well. |
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You have no idea what an HTTP method is? Worry not, here is a quick |
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introduction to HTTP methods and why they matter: |
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The HTTP method (also often called "the verb") tells the server what the |
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clients wants to *do* with the requested page. The following methods are |
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very common: |
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`GET` |
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The browser tells the server to just *get* the information stored on |
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that page and send it. This is probably the most common method. |
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`HEAD` |
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The browser tells the server to get the information, but it is only |
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interested in the *headers*, not the content of the page. An |
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application is supposed to handle that as if a `GET` request was |
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received but to not deliver the actual content. In Flask you don't |
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have to deal with that at all, the underlying Werkzeug library handles |
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that for you. |
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`POST` |
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The browser tells the server that it wants to *post* some new |
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information to that URL and that the server must ensure the data is |
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stored and only stored once. This is how HTML forms usually |
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transmit data to the server. |
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`PUT` |
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Similar to `POST` but the server might trigger the store procedure |
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multiple times by overwriting the old values more than once. Now you |
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might be asking why this is useful, but there are some good reasons |
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to do it this way. Consider that the connection is lost during |
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transmission: in this situation a system between the browser and the |
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server might receive the request safely a second time without breaking |
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things. With `POST` that would not be possible because it must only |
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be triggered once. |
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`DELETE` |
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Remove the information at the given location. |
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`OPTIONS` |
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Provides a quick way for a client to figure out which methods are |
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supported by this URL. Starting with Flask 0.6, this is implemented |
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for you automatically. |
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Now the interesting part is that in HTML4 and XHTML1, the only methods a |
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form can submit to the server are `GET` and `POST`. But with JavaScript |
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and future HTML standards you can use the other methods as well. Furthermore |
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HTTP has become quite popular lately and browsers are no longer the only |
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clients that are using HTTP. For instance, many revision control system |
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use it. |
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.. _HTTP RFC: http://www.ietf.org/rfc/rfc2068.txt |
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Static Files |
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------------ |
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Dynamic web applications also need static files. That's usually where |
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the CSS and JavaScript files are coming from. Ideally your web server is |
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configured to serve them for you, but during development Flask can do that |
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as well. Just create a folder called `static` in your package or next to |
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your module and it will be available at `/static` on the application. |
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To generate URLs for static files, use the special ``'static'`` endpoint name:: |
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url_for('static', filename='style.css') |
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The file has to be stored on the filesystem as ``static/style.css``. |
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Rendering Templates |
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------------------- |
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Generating HTML from within Python is not fun, and actually pretty |
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cumbersome because you have to do the HTML escaping on your own to keep |
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the application secure. Because of that Flask configures the `Jinja2 |
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<http://jinja.pocoo.org/2/>`_ template engine for you automatically. |
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To render a template you can use the :func:`~flask.render_template` |
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method. All you have to do is provide the name of the template and the |
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variables you want to pass to the template engine as keyword arguments. |
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Here's a simple example of how to render a template:: |
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from flask import render_template |
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@app.route('/hello/') |
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@app.route('/hello/<name>') |
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def hello(name=None): |
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return render_template('hello.html', name=name) |
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Flask will look for templates in the `templates` folder. So if your |
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application is a module, this folder is next to that module, if it's a |
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package it's actually inside your package: |
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**Case 1**: a module:: |
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/application.py |
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/templates |
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/hello.html |
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**Case 2**: a package:: |
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/application |
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/__init__.py |
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/templates |
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/hello.html |
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For templates you can use the full power of Jinja2 templates. Head over |
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to the official `Jinja2 Template Documentation |
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<http://jinja.pocoo.org/2/documentation/templates>`_ for more information. |
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Here is an example template: |
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.. sourcecode:: html+jinja |
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<!doctype html> |
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<title>Hello from Flask</title> |
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{% if name %} |
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<h1>Hello {{ name }}!</h1> |
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{% else %} |
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<h1>Hello World!</h1> |
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{% endif %} |
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Inside templates you also have access to the :class:`~flask.request`, |
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:class:`~flask.session` and :class:`~flask.g` [#]_ objects |
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as well as the :func:`~flask.get_flashed_messages` function. |
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Templates are especially useful if inheritance is used. If you want to |
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know how that works, head over to the :ref:`template-inheritance` pattern |
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documentation. Basically template inheritance makes it possible to keep |
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certain elements on each page (like header, navigation and footer). |
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Automatic escaping is enabled, so if `name` contains HTML it will be escaped |
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automatically. If you can trust a variable and you know that it will be |
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safe HTML (for example because it came from a module that converts wiki |
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markup to HTML) you can mark it as safe by using the |
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:class:`~jinja2.Markup` class or by using the ``|safe`` filter in the |
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template. Head over to the Jinja 2 documentation for more examples. |
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Here is a basic introduction to how the :class:`~jinja2.Markup` class works: |
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>>> from flask import Markup |
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>>> Markup('<strong>Hello %s!</strong>') % '<blink>hacker</blink>' |
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Markup(u'<strong>Hello <blink>hacker</blink>!</strong>') |
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>>> Markup.escape('<blink>hacker</blink>') |
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Markup(u'<blink>hacker</blink>') |
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>>> Markup('<em>Marked up</em> » HTML').striptags() |
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u'Marked up \xbb HTML' |
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.. versionchanged:: 0.5 |
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Autoescaping is no longer enabled for all templates. The following |
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extensions for templates trigger autoescaping: ``.html``, ``.htm``, |
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``.xml``, ``.xhtml``. Templates loaded from a string will have |
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autoescaping disabled. |
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.. [#] Unsure what that :class:`~flask.g` object is? It's something in which |
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you can store information for your own needs, check the documentation of |
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that object (:class:`~flask.g`) and the :ref:`sqlite3` for more |
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information. |
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Accessing Request Data |
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---------------------- |
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For web applications it's crucial to react to the data a client sent to |
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the server. In Flask this information is provided by the global |
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:class:`~flask.request` object. If you have some experience with Python |
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you might be wondering how that object can be global and how Flask |
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manages to still be threadsafe. The answer is context locals: |
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.. _context-locals: |
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Context Locals |
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`````````````` |
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.. admonition:: Insider Information |
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If you want to understand how that works and how you can implement |
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tests with context locals, read this section, otherwise just skip it. |
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Certain objects in Flask are global objects, but not of the usual kind. |
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These objects are actually proxies to objects that are local to a specific |
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context. What a mouthful. But that is actually quite easy to understand. |
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Imagine the context being the handling thread. A request comes in and the |
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web server decides to spawn a new thread (or something else, the |
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underlying object is capable of dealing with concurrency systems other |
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than threads). When Flask starts its internal request handling it |
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figures out that the current thread is the active context and binds the |
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current application and the WSGI environments to that context (thread). |
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It does that in an intelligent way so that one application can invoke another |
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application without breaking. |
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So what does this mean to you? Basically you can completely ignore that |
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this is the case unless you are doing something like unit testing. You |
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will notice that code which depends on a request object will suddenly break |
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because there is no request object. The solution is creating a request |
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object yourself and binding it to the context. The easiest solution for |
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unit testing is to use the :meth:`~flask.Flask.test_request_context` |
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context manager. In combination with the `with` statement it will bind a |
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test request so that you can interact with it. Here is an example:: |
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from flask import request |
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with app.test_request_context('/hello', method='POST'): |
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# now you can do something with the request until the |
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# end of the with block, such as basic assertions: |
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assert request.path == '/hello' |
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assert request.method == 'POST' |
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The other possibility is passing a whole WSGI environment to the |
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:meth:`~flask.Flask.request_context` method:: |
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from flask import request |
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with app.request_context(environ): |
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assert request.method == 'POST' |
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The Request Object |
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`````````````````` |
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The request object is documented in the API section and we will not cover |
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it here in detail (see :class:`~flask.request`). Here is a broad overview of |
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some of the most common operations. First of all you have to import it from |
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the `flask` module:: |
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from flask import request |
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The current request method is available by using the |
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:attr:`~flask.request.method` attribute. To access form data (data |
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transmitted in a `POST` or `PUT` request) you can use the |
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:attr:`~flask.request.form` attribute. Here is a full example of the two |
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attributes mentioned above:: |
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@app.route('/login', methods=['POST', 'GET']) |
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def login(): |
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error = None |
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if request.method == 'POST': |
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if valid_login(request.form['username'], |
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request.form['password']): |
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return log_the_user_in(request.form['username']) |
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else: |
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error = 'Invalid username/password' |
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# the code below this is executed if the request method |
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# was GET or the credentials were invalid |
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return render_template('login.html', error=error) |
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What happens if the key does not exist in the `form` attribute? In that |
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case a special :exc:`KeyError` is raised. You can catch it like a |
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standard :exc:`KeyError` but if you don't do that, a HTTP 400 Bad Request |
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error page is shown instead. So for many situations you don't have to |
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deal with that problem. |
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To access parameters submitted in the URL (``?key=value``) you can use the |
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:attr:`~flask.request.args` attribute:: |
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searchword = request.args.get('key', '') |
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We recommend accessing URL parameters with `get` or by catching the |
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`KeyError` because users might change the URL and presenting them a 400 |
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bad request page in that case is not user friendly. |
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For a full list of methods and attributes of the request object, head over |
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to the :class:`~flask.request` documentation. |
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File Uploads |
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```````````` |
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You can handle uploaded files with Flask easily. Just make sure not to |
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forget to set the ``enctype="multipart/form-data"`` attribute on your HTML |
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form, otherwise the browser will not transmit your files at all. |
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Uploaded files are stored in memory or at a temporary location on the |
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filesystem. You can access those files by looking at the |
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:attr:`~flask.request.files` attribute on the request object. Each |
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uploaded file is stored in that dictionary. It behaves just like a |
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standard Python :class:`file` object, but it also has a |
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:meth:`~werkzeug.datastructures.FileStorage.save` method that allows you to store that |
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file on the filesystem of the server. Here is a simple example showing how |
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that works:: |
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from flask import request |
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@app.route('/upload', methods=['GET', 'POST']) |
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def upload_file(): |
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if request.method == 'POST': |
|
f = request.files['the_file'] |
|
f.save('/var/www/uploads/uploaded_file.txt') |
|
... |
|
|
|
If you want to know how the file was named on the client before it was |
|
uploaded to your application, you can access the |
|
:attr:`~werkzeug.datastructures.FileStorage.filename` attribute. However please keep in |
|
mind that this value can be forged so never ever trust that value. If you |
|
want to use the filename of the client to store the file on the server, |
|
pass it through the :func:`~werkzeug.utils.secure_filename` function that |
|
Werkzeug provides for you:: |
|
|
|
from flask import request |
|
from werkzeug import secure_filename |
|
|
|
@app.route('/upload', methods=['GET', 'POST']) |
|
def upload_file(): |
|
if request.method == 'POST': |
|
f = request.files['the_file'] |
|
f.save('/var/www/uploads/' + secure_filename(f.filename)) |
|
... |
|
|
|
For some better examples, checkout the :ref:`uploading-files` pattern. |
|
|
|
Cookies |
|
``````` |
|
|
|
To access cookies you can use the :attr:`~flask.Request.cookies` |
|
attribute. To set cookies you can use the |
|
:attr:`~flask.Response.set_cookie` method of response objects. The |
|
:attr:`~flask.Request.cookies` attribute of request objects is a |
|
dictionary with all the cookies the client transmits. If you want to use |
|
sessions, do not use the cookies directly but instead use the |
|
:ref:`sessions` in Flask that add some security on top of cookies for you. |
|
|
|
Reading cookies:: |
|
|
|
from flask import request |
|
|
|
@app.route('/') |
|
def index(): |
|
username = request.cookies.get('username') |
|
# use cookies.get(key) instead of cookies[key] to not get a |
|
# KeyError if the cookie is missing. |
|
|
|
Storing cookies:: |
|
|
|
from flask import make_response |
|
|
|
@app.route('/') |
|
def index(): |
|
resp = make_response(render_template(...)) |
|
resp.set_cookie('username', 'the username') |
|
return resp |
|
|
|
Note that cookies are set on response objects. Since you normally |
|
just return strings from the view functions Flask will convert them into |
|
response objects for you. If you explicitly want to do that you can use |
|
the :meth:`~flask.make_response` function and then modify it. |
|
|
|
Sometimes you might want to set a cookie at a point where the response |
|
object does not exist yet. This is possible by utilizing the |
|
:ref:`deferred-callbacks` pattern. |
|
|
|
For this also see :ref:`about-responses`. |
|
|
|
Redirects and Errors |
|
-------------------- |
|
|
|
To redirect a user to somewhere else you can use the |
|
:func:`~flask.redirect` function. To abort a request early with an error |
|
code use the :func:`~flask.abort` function. Here an example how this works:: |
|
|
|
from flask import abort, redirect, url_for |
|
|
|
@app.route('/') |
|
def index(): |
|
return redirect(url_for('login')) |
|
|
|
@app.route('/login') |
|
def login(): |
|
abort(401) |
|
this_is_never_executed() |
|
|
|
This is a rather pointless example because a user will be redirected from |
|
the index to a page they cannot access (401 means access denied) but it |
|
shows how that works. |
|
|
|
By default a black and white error page is shown for each error code. If |
|
you want to customize the error page, you can use the |
|
:meth:`~flask.Flask.errorhandler` decorator:: |
|
|
|
from flask import render_template |
|
|
|
@app.errorhandler(404) |
|
def page_not_found(error): |
|
return render_template('page_not_found.html'), 404 |
|
|
|
Note the ``404`` after the :func:`~flask.render_template` call. This |
|
tells Flask that the status code of that page should be 404 which means |
|
not found. By default 200 is assumed which translates to: all went well. |
|
|
|
.. _about-responses: |
|
|
|
About Responses |
|
--------------- |
|
|
|
The return value from a view function is automatically converted into a |
|
response object for you. If the return value is a string it's converted |
|
into a response object with the string as response body, an ``200 OK`` |
|
error code and a ``text/html`` mimetype. The logic that Flask applies to |
|
converting return values into response objects is as follows: |
|
|
|
1. If a response object of the correct type is returned it's directly |
|
returned from the view. |
|
2. If it's a string, a response object is created with that data and the |
|
default parameters. |
|
3. If a tuple is returned the items in the tuple can provide extra |
|
information. Such tuples have to be in the form ``(response, status, |
|
headers)`` where at least one item has to be in the tuple. The |
|
`status` value will override the status code and `headers` can be a |
|
list or dictionary of additional header values. |
|
4. If none of that works, Flask will assume the return value is a |
|
valid WSGI application and convert that into a response object. |
|
|
|
If you want to get hold of the resulting response object inside the view |
|
you can use the :func:`~flask.make_response` function. |
|
|
|
Imagine you have a view like this: |
|
|
|
.. sourcecode:: python |
|
|
|
@app.errorhandler(404) |
|
def not_found(error): |
|
return render_template('error.html'), 404 |
|
|
|
You just need to wrap the return expression with |
|
:func:`~flask.make_response` and get the result object to modify it, then |
|
return it: |
|
|
|
.. sourcecode:: python |
|
|
|
@app.errorhandler(404) |
|
def not_found(error): |
|
resp = make_response(render_template('error.html'), 404) |
|
resp.headers['X-Something'] = 'A value' |
|
return resp |
|
|
|
.. _sessions: |
|
|
|
Sessions |
|
-------- |
|
|
|
In addition to the request object there is also a second object called |
|
:class:`~flask.session` which allows you to store information specific to a |
|
user from one request to the next. This is implemented on top of cookies |
|
for you and signs the cookies cryptographically. What this means is that |
|
the user could look at the contents of your cookie but not modify it, |
|
unless they know the secret key used for signing. |
|
|
|
In order to use sessions you have to set a secret key. Here is how |
|
sessions work:: |
|
|
|
from flask import Flask, session, redirect, url_for, escape, request |
|
|
|
app = Flask(__name__) |
|
|
|
@app.route('/') |
|
def index(): |
|
if 'username' in session: |
|
return 'Logged in as %s' % escape(session['username']) |
|
return 'You are not logged in' |
|
|
|
@app.route('/login', methods=['GET', 'POST']) |
|
def login(): |
|
if request.method == 'POST': |
|
session['username'] = request.form['username'] |
|
return redirect(url_for('index')) |
|
return ''' |
|
<form action="" method="post"> |
|
<p><input type=text name=username> |
|
<p><input type=submit value=Login> |
|
</form> |
|
''' |
|
|
|
@app.route('/logout') |
|
def logout(): |
|
# remove the username from the session if it's there |
|
session.pop('username', None) |
|
return redirect(url_for('index')) |
|
|
|
# set the secret key. keep this really secret: |
|
app.secret_key = 'A0Zr98j/3yX R~XHH!jmN]LWX/,?RT' |
|
|
|
The :func:`~flask.escape` mentioned here does escaping for you if you are |
|
not using the template engine (as in this example). |
|
|
|
.. admonition:: How to generate good secret keys |
|
|
|
The problem with random is that it's hard to judge what is truly random. And |
|
a secret key should be as random as possible. Your operating system |
|
has ways to generate pretty random stuff based on a cryptographic |
|
random generator which can be used to get such a key: |
|
|
|
>>> import os |
|
>>> os.urandom(24) |
|
'\xfd{H\xe5<\x95\xf9\xe3\x96.5\xd1\x01O<!\xd5\xa2\xa0\x9fR"\xa1\xa8' |
|
|
|
Just take that thing and copy/paste it into your code and you're done. |
|
|
|
A note on cookie-based sessions: Flask will take the values you put into the |
|
session object and serialize them into a cookie. If you are finding some |
|
values do not persist across requests, cookies are indeed enabled, and you are |
|
not getting a clear error message, check the size of the cookie in your page |
|
responses compared to the size supported by web browsers. |
|
|
|
|
|
Message Flashing |
|
---------------- |
|
|
|
Good applications and user interfaces are all about feedback. If the user |
|
does not get enough feedback they will probably end up hating the |
|
application. Flask provides a really simple way to give feedback to a |
|
user with the flashing system. The flashing system basically makes it |
|
possible to record a message at the end of a request and access it on the next |
|
(and only the next) request. This is usually combined with a layout |
|
template to expose the message. |
|
|
|
To flash a message use the :func:`~flask.flash` method, to get hold of the |
|
messages you can use :func:`~flask.get_flashed_messages` which is also |
|
available in the templates. Check out the :ref:`message-flashing-pattern` |
|
for a full example. |
|
|
|
Logging |
|
------- |
|
|
|
.. versionadded:: 0.3 |
|
|
|
Sometimes you might be in a situation where you deal with data that |
|
should be correct, but actually is not. For example you may have some client-side |
|
code that sends an HTTP request to the server but it's obviously |
|
malformed. This might be caused by a user tampering with the data, or the |
|
client code failing. Most of the time it's okay to reply with ``400 Bad |
|
Request`` in that situation, but sometimes that won't do and the code has |
|
to continue working. |
|
|
|
You may still want to log that something fishy happened. This is where |
|
loggers come in handy. As of Flask 0.3 a logger is preconfigured for you |
|
to use. |
|
|
|
Here are some example log calls:: |
|
|
|
app.logger.debug('A value for debugging') |
|
app.logger.warning('A warning occurred (%d apples)', 42) |
|
app.logger.error('An error occurred') |
|
|
|
The attached :attr:`~flask.Flask.logger` is a standard logging |
|
:class:`~logging.Logger`, so head over to the official `logging |
|
documentation <http://docs.python.org/library/logging.html>`_ for more |
|
information. |
|
|
|
Hooking in WSGI Middlewares |
|
--------------------------- |
|
|
|
If you want to add a WSGI middleware to your application you can wrap the |
|
internal WSGI application. For example if you want to use one of the |
|
middlewares from the Werkzeug package to work around bugs in lighttpd, you |
|
can do it like this:: |
|
|
|
from werkzeug.contrib.fixers import LighttpdCGIRootFix |
|
app.wsgi_app = LighttpdCGIRootFix(app.wsgi_app) |
|
|
|
.. _quickstart_deployment: |
|
|
|
Deploying to a Web Server |
|
------------------------- |
|
|
|
Ready to deploy your new Flask app? To wrap up the quickstart, you can |
|
immediately deploy to a hosted platform, all of which offer a free plan for |
|
small projects: |
|
|
|
- `Deploying Flask on Heroku <http://devcenter.heroku.com/articles/python>`_ |
|
- `Deploying WSGI on dotCloud <http://docs.dotcloud.com/services/python/>`_ |
|
with `Flask-specific notes <http://flask.pocoo.org/snippets/48/>`_ |
|
|
|
Other places where you can host your Flask app: |
|
|
|
- `Deploying Flask on Webfaction <http://flask.pocoo.org/snippets/65/>`_ |
|
- `Deploying Flask on Google App Engine <https://github.com/kamalgill/flask-appengine-template>`_ |
|
- `Sharing your Localhost Server with Localtunnel <http://flask.pocoo.org/snippets/89/>`_ |
|
|
|
If you manage your own hosts and would like to host yourself, see the chapter |
|
on :ref:`deployment`.
|
|
|