.. module:: bottle

.. _beaker: http://beaker.groovie.org/
.. _mod_python: http://www.modpython.org/
.. _mod_wsgi: http://code.google.com/p/modwsgi/
.. _werkzeug: http://werkzeug.pocoo.org/documentation/dev/debug.html
.. _paste: http://pythonpaste.org/modules/evalexception.html
.. _pylons: http://pylonshq.com/
.. _gevent: http://www.gevent.org/
.. _compression: https://github.com/defnull/bottle/issues/92
.. _GzipFilter: http://www.cherrypy.org/wiki/GzipFilter
.. _cherrypy: http://www.cherrypy.org
.. _heroku: http://heroku.com

Recipes
=============

This is a collection of code snippets and examples for common use cases. 

Keeping track of Sessions
----------------------------

There is no built-in support for sessions because there is no *right* way to do it (in a micro framework). Depending on requirements and environment you could use beaker_ middleware with a fitting backend or implement it yourself. Here is an example for beaker sessions with a file-based backend::

    import bottle
    from beaker.middleware import SessionMiddleware

    session_opts = {
        'session.type': 'file',
        'session.cookie_expires': 300,
        'session.data_dir': './data',
        'session.auto': True
    }
    app = SessionMiddleware(bottle.app(), session_opts)

    @bottle.route('/test')
    def test():
      s = bottle.request.environ.get('beaker.session')
      s['test'] = s.get('test',0) + 1
      s.save()
      return 'Test counter: %d' % s['test']

    bottle.run(app=app)

Debugging with Style: Debugging Middleware
--------------------------------------------------------------------------------

Bottle catches all Exceptions raised in your app code to prevent your WSGI server from crashing. If the built-in :func:`debug` mode is not enough and you need exceptions to propagate to a debugging middleware, you can turn off this behaviour::

    import bottle
    app = bottle.app() 
    app.catchall = False #Now most exceptions are re-raised within bottle.
    myapp = DebuggingMiddleware(app) #Replace this with a middleware of your choice (see below)
    bottle.run(app=myapp)

Now, bottle only catches its own exceptions (:exc:`HTTPError`, :exc:`HTTPResponse` and :exc:`BottleException`) and your middleware can handle the rest.

The werkzeug_ and paste_ libraries both ship with very powerfull debugging WSGI middleware. Look at :class:`werkzeug.debug.DebuggedApplication` for werkzeug_ and :class:`paste.evalexception.middleware.EvalException` for paste_. They both allow you do inspect the stack and even execute python code within the stack context, so **do not use them in production**.


Embedding other WSGI Apps
--------------------------------------------------------------------------------

This is not the recommend way (you should use a middleware in front of bottle to do this) but you can call other WSGI applications from within your bottle app and let bottle act as a pseudo-middleware. Here is an example::

    from bottle import request, response, route
    subproject = SomeWSGIApplication()

    @route('/subproject/:subpath#.*#', method='ALL')
    def call_wsgi(subpath):
        new_environ = request.environ.copy()
        new_environ['SCRIPT_NAME'] = new_environ.get('SCRIPT_NAME','') + '/subproject'
        new_environ['PATH_INFO'] = '/' + subpath
        def start_response(status, headerlist):
            response.status = int(status.split()[0])
            for key, value in headerlist:
                response.add_header(key, value)
        return app(new_environ, start_response)

Again, this is not the recommend way to implement subprojects. It is only here because many people asked for this and to show how bottle maps to WSGI.


Ignore trailing slashes
--------------------------------------------------------------------------------

For Bottle, ``/example`` and ``/example/`` are two different routes [1]_. To treat both URLs the same you can add two ``@route`` decorators::

    @route('/test')
    @route('/test/')
    def test(): return 'Slash? no?'

or add a WSGI middleware that strips trailing slashes from all URLs::

    class StripPathMiddleware(object):
      def __init__(self, app):
        self.app = app
      def __call__(self, e, h):
        e['PATH_INFO'] = e['PATH_INFO'].rstrip('/')
        return self.app(e,h)
    
    app = bottle.app()
    myapp = StripPathMiddleware(app)
    bottle.run(app=myapp)

.. rubric:: Footnotes

.. [1] Because they are. See <http://www.ietf.org/rfc/rfc3986.txt>


Keep-alive requests
-------------------

.. note::

    For a more detailed explanation, see :doc:`async`.

Several "push" mechanisms like XHR multipart need the ability to write response data without closing the connection in conjunction with the response header "Connection: keep-alive". WSGI does not easily lend itself to this behavior, but it is still possible to do so in Bottle by using the gevent_ async framework. Here is a sample that works with either the gevent_ HTTP server or the paste_ HTTP server (it may work with others, but I have not tried). Just change ``server='gevent'`` to ``server='paste'`` to use the paste_ server::

    from gevent import monkey; monkey.patch_all()

    import time
    from bottle import route, run
    
    @route('/stream')
    def stream():
        yield 'START'
        time.sleep(3)
        yield 'MIDDLE'
        time.sleep(5)
        yield 'END'
    
    run(host='0.0.0.0', port=8080, server='gevent')

If you browse to ``http://localhost:8080/stream``, you should see 'START', 'MIDDLE', and 'END' show up one at a time (rather than waiting 8 seconds to see them all at once).

Gzip Compression in Bottle
--------------------------

.. note::
   For a detailed discussion, see compression_

A common feature request is for Bottle to support Gzip compression, which speeds up sites by compressing static resources (like CSS and JS files) during a request.

Supporting Gzip compression is not a straightforward proposition, due to a number of corner cases that crop up frequently. A proper Gzip implementation must:

* Compress on the fly and be fast doing so.
* Do not compress for browsers that don't support it.
* Do not compress files that are compressed already (images, videos).
* Do not compress dynamic files.
* Support two differed compression algorithms (gzip and deflate).
* Cache compressed files that don't change often.
* De-validate the cache if one of the files changed anyway.
* Make sure the cache does not get to big.
* Do not cache small files because a disk seek would take longer than on-the-fly compression.

Because of these requirements, it is the reccomendation of the Bottle project that Gzip compression is best handled by the WSGI server Bottle runs on top of. WSGI servers such as cherrypy_ provide a GzipFilter_ middleware that can be used to accomplish this.


Using the hooks plugin
----------------------

For example, if you want to allow Cross-Origin Resource Sharing for
the content returned by all of your URL, you can use the hook
decorator and setup a callback function::

    from bottle import hook, response, route

    @hook('after_request')
    def enable_cors():
        response.headers['Access-Control-Allow-Origin'] = '*'

    @route('/foo')
    def say_foo():
        return 'foo!'

    @route('/bar')
    def say_bar():
        return {'type': 'friendly', 'content': 'Hi!'}

You can also use the ``before_callback`` to take an action before
every function gets called.


Using Bottle with Heroku
------------------------

Heroku_, a popular cloud application platform now provides support
for running Python applications on their infastructure. 

This recipe is based upon the `Heroku Quickstart 
<http://devcenter.heroku.com/articles/quickstart>`_, 
with Bottle specific code replacing the 
`Write Your App <http://devcenter.heroku.com/articles/python#write_your_app>`_ 
section of the `Getting Started with Python on Heroku/Cedar 
<http://devcenter.heroku.com/articles/python>`_ guide::

    import os
    from bottle import route, run

    @route("/")
    def hello_world():
            return "Hello World!"

    run(host="0.0.0.0", port=int(os.environ.get("PORT", 5000)))

Heroku's app stack passes the port that the application needs to
listen on for requests, using the `os.environ` dictionary.