| .. currentmodule:: flask |
|
|
| Define and Access the Database |
| ============================== |
|
|
| The application will use a `SQLite`_ database to store users and posts. |
| Python comes with built-in support for SQLite in the :mod:`sqlite3` |
| module. |
|
|
| SQLite is convenient because it doesn't require setting up a separate |
| database server and is built-in to Python. However, if concurrent |
| requests try to write to the database at the same time, they will slow |
| down as each write happens sequentially. Small applications won't notice |
| this. Once you become big, you may want to switch to a different |
| database. |
|
|
| The tutorial doesn't go into detail about SQL. If you are not familiar |
| with it, the SQLite docs describe the `language`_. |
|
|
| .. _SQLite: https://sqlite.org/about.html |
| .. _language: https://sqlite.org/lang.html |
|
|
|
|
| Connect to the Database |
| ----------------------- |
|
|
| The first thing to do when working with a SQLite database (and most |
| other Python database libraries) is to create a connection to it. Any |
| queries and operations are performed using the connection, which is |
| closed after the work is finished. |
|
|
| In web applications this connection is typically tied to the request. It |
| is created at some point when handling a request, and closed before the |
| response is sent. |
|
|
| .. code-block:: python |
| :caption: ``flaskr/db.py`` |
|
|
| import sqlite3 |
|
|
| import click |
| from flask import current_app, g |
| from flask.cli import with_appcontext |
|
|
|
|
| def get_db(): |
| if 'db' not in g: |
| g.db = sqlite3.connect( |
| current_app.config['DATABASE'], |
| detect_types=sqlite3.PARSE_DECLTYPES |
| ) |
| g.db.row_factory = sqlite3.Row |
|
|
| return g.db |
|
|
|
|
| def close_db(e=None): |
| db = g.pop('db', None) |
|
|
| if db is not None: |
| db.close() |
|
|
| :data:`g` is a special object that is unique for each request. It is |
| used to store data that might be accessed by multiple functions during |
| the request. The connection is stored and reused instead of creating a |
| new connection if ``get_db`` is called a second time in the same |
| request. |
|
|
| :data:`current_app` is another special object that points to the Flask |
| application handling the request. Since you used an application factory, |
| there is no application object when writing the rest of your code. |
| ``get_db`` will be called when the application has been created and is |
| handling a request, so :data:`current_app` can be used. |
|
|
| :func:`sqlite3.connect` establishes a connection to the file pointed at |
| by the ``DATABASE`` configuration key. This file doesn't have to exist |
| yet, and won't until you initialize the database later. |
|
|
| :class:`sqlite3.Row` tells the connection to return rows that behave |
| like dicts. This allows accessing the columns by name. |
|
|
| ``close_db`` checks if a connection was created by checking if ``g.db`` |
| was set. If the connection exists, it is closed. Further down you will |
| tell your application about the ``close_db`` function in the application |
| factory so that it is called after each request. |
|
|
|
|
| Create the Tables |
| ----------------- |
|
|
| In SQLite, data is stored in *tables* and *columns*. These need to be |
| created before you can store and retrieve data. Flaskr will store users |
| in the ``user`` table, and posts in the ``post`` table. Create a file |
| with the SQL commands needed to create empty tables: |
|
|
| .. code-block:: sql |
| :caption: ``flaskr/schema.sql`` |
|
|
| DROP TABLE IF EXISTS user; |
| DROP TABLE IF EXISTS post; |
|
|
| CREATE TABLE user ( |
| id INTEGER PRIMARY KEY AUTOINCREMENT, |
| username TEXT UNIQUE NOT NULL, |
| password TEXT NOT NULL |
| ); |
|
|
| CREATE TABLE post ( |
| id INTEGER PRIMARY KEY AUTOINCREMENT, |
| author_id INTEGER NOT NULL, |
| created TIMESTAMP NOT NULL DEFAULT CURRENT_TIMESTAMP, |
| title TEXT NOT NULL, |
| body TEXT NOT NULL, |
| FOREIGN KEY (author_id) REFERENCES user (id) |
| ); |
|
|
| Add the Python functions that will run these SQL commands to the |
| ``db.py`` file: |
|
|
| .. code-block:: python |
| :caption: ``flaskr/db.py`` |
|
|
| def init_db(): |
| db = get_db() |
|
|
| with current_app.open_resource('schema.sql') as f: |
| db.executescript(f.read().decode('utf8')) |
|
|
|
|
| @click.command('init-db') |
| @with_appcontext |
| def init_db_command(): |
| """Clear the existing data and create new tables.""" |
| init_db() |
| click.echo('Initialized the database.') |
|
|
| :meth:`open_resource() <Flask.open_resource>` opens a file relative to |
| the ``flaskr`` package, which is useful since you won't necessarily know |
| where that location is when deploying the application later. ``get_db`` |
| returns a database connection, which is used to execute the commands |
| read from the file. |
| |
| :func:`click.command` defines a command line command called ``init-db`` |
| that calls the ``init_db`` function and shows a success message to the |
| user. You can read :doc:`/cli` to learn more about writing commands. |
|
|
|
|
| Register with the Application |
| ----------------------------- |
|
|
| The ``close_db`` and ``init_db_command`` functions need to be registered |
| with the application instance; otherwise, they won't be used by the |
| application. However, since you're using a factory function, that |
| instance isn't available when writing the functions. Instead, write a |
| function that takes an application and does the registration. |
|
|
| .. code-block:: python |
| :caption: ``flaskr/db.py`` |
|
|
| def init_app(app): |
| app.teardown_appcontext(close_db) |
| app.cli.add_command(init_db_command) |
|
|
| :meth:`app.teardown_appcontext() <Flask.teardown_appcontext>` tells |
| Flask to call that function when cleaning up after returning the |
| response. |
|
|
| :meth:`app.cli.add_command() <click.Group.add_command>` adds a new |
| command that can be called with the ``flask`` command. |
|
|
| Import and call this function from the factory. Place the new code at |
| the end of the factory function before returning the app. |
|
|
| .. code-block:: python |
| :caption: ``flaskr/__init__.py`` |
|
|
| def create_app(): |
| app = ... |
| # existing code omitted |
|
|
| from . import db |
| db.init_app(app) |
|
|
| return app |
|
|
|
|
| Initialize the Database File |
| ---------------------------- |
|
|
| Now that ``init-db`` has been registered with the app, it can be called |
| using the ``flask`` command, similar to the ``run`` command from the |
| previous page. |
|
|
| .. note:: |
|
|
| If you're still running the server from the previous page, you can |
| either stop the server, or run this command in a new terminal. If |
| you use a new terminal, remember to change to your project directory |
| and activate the env as described in :doc:`/installation`. You'll |
| also need to set ``FLASK_APP`` and ``FLASK_ENV`` as shown on the |
| previous page. |
|
|
| Run the ``init-db`` command: |
|
|
| .. code-block:: none |
|
|
| $ flask init-db |
| Initialized the database. |
|
|
| There will now be a ``flaskr.sqlite`` file in the ``instance`` folder in |
| your project. |
|
|
| Continue to :doc:`views`. |
|
|
