Tag Archives: web.py

Python Web Frameworks – Application Object

In response to my previous post, someone asked “… what’s the point? How one way is better than the other?” My response was that I’m “not trying to judge these frameworks from the perspective of a developer (at least not completely), but rather from the POV of ‘if I were writing a framework, which features are essential, which nice to have, which I can disregard'” (emphasis added). Of course, I have my own biases as a developer as to what I consider “nice” or essential.

With that clarification out of the way, let’s look at the next feature: the WSGI callable generally known as the application object.

Django doesn’t want developers to be concerned with this artifact. A Django application is the collection of model, views (controllers in standard MVC terminology) and templates (views) that gets run by the server. For those interested, the Django WSGI callable is an instance of WSGIHandler (in django.core.handlers.wsgi).

As best as I can tell, Twisted Web expects the developer to write the application object. It will get called from the WSGIResponse run() method in twisted.web.wsgi. As its documentation says, Twisted Web is “a framework for doing things with the web” but is “not a ‘web framework’ in the same sense” as Django, so it doesn’t fit well in this comparison.

Pyramid‘s Router class (in pyramid.router) is what implements the WSGI callable. The Router instance gets created from the Configurator class’s make_wsgi_app() method. Select Router attributes and methods:

  • logger
  • root_factory
  • routes_mapper
  • request_factory
  • registry (from args)
  • handle_request()

In CherryPy, the Application class is the application object, although it’s not generallly used directly. Instead a user root object is mounted on a Tree which is a registry of these applications. Major attributes and methods:

  • root (from args): root object (application handler)
  • namespaces, config: for configuration
  • wsgiapp(): a CPWSGIApp instance, to handle apps in a pipeline

Being a support library, Werkzeug doesn’t include an application object, but it has a sample in its Shortly example. Major attributes and methods:

  • dispatch_request(): dispatcher
  • jinja_env: template enviroment
  • url_map: Map() taking list of Rule()’s
  • error_404(): error handler
  • render_template(): template renderer

Like Django, Web2py isn’t interested in having developers worry about the application object. Its WSGI callable is the standalone wsgibase() function, in gluon.main.

The web.py application class (yes, not capitalized) implements its WSGI callable. Major attributes and methods:

  • autoreload (from args)
  • init_mapping (from args)
  • request()
  • handle(): matches path to mapping
  • run(): runs the developer server
  • notfound(), internalerror(): error handlers

Flask‘s Flask class is its application object, derived from flask.helpers._PackageBoundObject. Selected attributes and methods (in addition to those in Werkzeug’s example above):

  • static_url_path, static_folder (from args)
  • instance_path (from args or auto-determined)
  • view_functions
  • before/after_xxx_funcs (dicts)
  • logger
  • run()
  • route(): decorator for URL rules
  • error_handler_spec (a dict)
  • errorhandler(): decorator for error handler functions

Like Werkzeug, WebOb doesn’t include an application object, but it has a sample in its wiki example, most of it very specific to the example.

Bottle‘s Bottle class is its WSGI callable. Major attributes and methods:

  • routes (list) and router (class Router instance)
  • config (class ConfigDict instance)
  • mount(): to mount an app at a given point
  • match(): to search for matching routes
  • route(): decorator to bind a function to a URL

Pesto‘s DispatcherApp class is its application object. Major attributes and methods:

  • prefix (from args): a “mount” point
  • matchpattern(), match(): matches URLs (match is decorator)
  • urlfor(): handler/dispatcher to URL converter
  • gettarget(): returns a four-part tuple from the URI
  • status404_application(): error handler

Diva‘s Application class is the object of interest. Select attributes and methods:

  • config (from kwargs), configure()
  • routing_cfg and routing
  • locale_dir (from args)
  • template_dirs (from args)
  • templates(): template loader
  • prepare() and cleanup(): before and after methods

Summary: For developers who care about writing application code, Django and Web2py and to some extent Pyramid and CherryPy hide the existence of the WSGI callable, while other frameworks require that the programmer instantiate it or invoke it. If I were to write a framework, I’d want to make it easy on the developer as the former projects do, but wouldn’t keep it completely out of sight.

Python Web Frameworks – Development Server

One of the most frequent tasks of a web developer is running the app while it’s being written. So we’ll begin our examination of Python web frameworks by looking at the development servers provided and how does one run the app.

Django developers are used to invoking

python manage.py runserver

The runserver option runs Django’s development server which is invoked via the run() function in django.core.servers.basehttp. This in turn runs a WSGIServer which is derived from Python’s wsgiref’s simple_server.

Twisted Web has its own server based on its core reactor object. Here’s a simple usage example:

from twisted.web import server, resource
from twisted.internet import reactor

class HelloResource(resource.Resource):
    ...

reactor.listenTCP(8080, server.Site(HelloResource()))
reactor.run()

Pyramid uses Paste’s paste.httpserver which in turn is based on Python’s BaseHTTPServer. Sample usage:

from paste.httpserver import serve
from pyramid.config import Configurator

def hello_world(request):
   ... 

if __name__ == '__main__':
   config = Configurator()
   ...
   app = config.make_wsgi_app()
   serve(app, host='0.0.0.0')

In CherryPy, the normal server is cherrypy.engine which is invoked as:

cherrypy.engine.start()
cherrypy.engine.block()

cherrypy.engine is actually an instance of cherrypy.process.wspbus.Bus. A simpler alternative to the engine calls is to use:

cherrypy.quickstart(app())

Under the covers, CherryPy also defines a global server variable that is an instance of Server which implements the HTTP server, with help from cherrypy._cpwsgi_server.CPWSGIServer.

Werkzeug has a built-in server, used as follows:

from werkzeug.serving import run_simple
from myproject import make_app

app = make_app(...)
run_simple('localhost', 8080, app, use_reloader=True)

run_simple() invokes its own (werkzeug.serving) make_server which creates one of three types of XxxWSGIServer’s, which are derived from Python’s BaseHTTPServer.HTTPServer.

When Web2py is invoked, a GUI dialog is shown. The dialog is implemented in gluon.widget and its web2pyDialog.start method creates a main.HttpServer. gluon.main’s HttpServer class uses the Rocket server whose code is in gluon.rocket.

In web.py, to run an application you instantiate a web.application and invoke its run() method, e.g.:

app = web.application(urls, globals())
app.run()

This eventually runs a BaseHTTPServer.HTTPServer from the Python standard library.

Flask‘s WSGI application class (Flask) has a run() method:

run(host='127.0.0.1', port=5000, debug=None, **options)

This invokes the Werkzeug serving.run_simple function (see above).

WebOb doesn’t offer any server per se, but suggests using Paste’s httpserver.serve or wsgiref.simple_server.

Bottle has a standalone run() function:

run(app=None, server='wsgiref', host='127.0.0.1', port=8080,
    interval=1, reloader=False, quiet=False, plugins=None, **kargs)

This runs one of several web servers supported, by default, wsgiref, which uses the wsgiref.simple_server.

Pesto suggests using the Python wsgiref directly, e.g.:

import pesto
dispatcher = pesto.dispatcher_app()
...
httpd = make_server('', 8080, dispatcher)
httpd.serve_forever()

Diva uses Python’s WSGIServer from the standard library to implement its main() and serve() standalone functions. The former can be used as follows:

from diva.core import Application
from diva.server import main

class MyApp(Application): pass

main(MyApp())

Summary: With the exception of Twisted and CherryPy, all frameworks base their development servers on the standard library’s wsgiref or BaseHTTPServer, Paste or Rocket (which claims to be CherryPy-compatible). Lesson for prospective framework creators: Don’t write your own server. However, you may want to enhance your server with auto-reloading, threading, debugging. etc.

There are two approaches to running the app or server. Django and Web2py don’t want the developer to bother with writing app.run() or similar, the other frameworks expect the programmer to plug the various pieces together.

Best wishes for 2012 to all readers!

Python Web Frameworks – Candidates

I’ve been researching web frameworks, partly with a view to writing my own, and thought I’d share my findings. This first post will present the candidates briefly and subsequent posts will delve into particular features.

The candidates are presented based on the number of users as found on Ohloh, as a rough measure of popularity.  Each includes the number of downloads for the latest release on PyPI (sometimes misleading if a package had a recent release) and the salient parts of its advertised description (caveat emptor!). All of them are open source and written in Python, but some of them are WSGI libraries rather than full frameworks.

Django (843 users, 126,426 downloads): A “high-level … Web framework that encourages rapid development and clean, pragmatic design.”

Twisted Web (136 users, 14,413 downloads [both for Twisted]):  An “HTPP server that can be used as a library or run … stand-alone …, an HTML templating engine [and] an HTTP client library.”

Pyramid (aka Pylons on Ohloh, 125 users, 606 + 640 downloads): A “very general … web framework [designed] to make it easier for a developer to create an arbitrary web application.”

CherryPy (75 users, PyPI download info not available): A “minimalist … pythonic, object-oriented web framework.”

Werkzeug (31 users, 4225 downloads): A “WSGI utility library, … [it] is Simple … And Powerful.”

Web2py (21 users, 1157 downloads): A “full-stack framework for rapid development of fast, scalable, secure and portable database-driven web-based applications.”

Web.py (18 users, 11,708 downloads): A “web framework … that is as simple as it is powerful” (hmmm … see Werkzeug above).

Flask (16 users, 42,657 downloads): A “microframework … based on Werkzeug, Jinja 2 and good intentions.”

WebOb (16 users, 29,664 downloads): A “library that provides wrappers around the WSGI request environment, and an object to help create WSGI responses.”

Bottle (4 users, 163 downloads): A “fast, simple and lightweight WSGI micro web-framework.”

Pesto (no users, 421 downloads): Not a framework, but a library for “writing WSGI web applications.”

Diva (not on Ohloh or PyPI): This is Christopher Lenz’s  framework experimentation sandbox: “a lightweight web framework … built on top of WSGI and integrated with … Genshi.” My first, unpublished attempt at writing a framework was based on Diva.

Left Out: I had to draw the line somewhere. Compared to Richard Jones’ micro-framework battle, I included three of what he called “mega frameworks” and excluded three of his micro frameworks. For the record, here are the ones I left out: Aspen, Bobo, CubicWeb, Grok, Itty, Milla, Nagare, Nevow, Pump, Pyjamas, Pylons, Python Paste, Quixote, Spyce, Tornado, TurboGears, Webware, Zope 2 and Zope 3Bluebream. But that’s not all: see the Python.org wiki, WSGI.org and Wikipedia.

Unlike Richard, I will not attempt to develop an application with each framework. Instead, I’ll analyze specific features along the lines of Christopher’s Diva documentation.