The TGController is the basic controller class that provides an easy method for nesting of controller classes to map URL hierarchies. There are however a few methods which provide a slightly different method for dispatch. They are described below.
The developer may decide to provied a _default method within their
controller which is called when the dispatch mechanism cannot find
an appropriate method in your controllers to call. This
_default method might look something like this:
class WikiController(BaseController):
@expose('mytgapp.wiki.new)
def _default(self, *args):
"""
Return a page to prompt the user to create a new wiki page."""
"""
return dict(new_page_slug=args)s
_lookup and _default are called in identical situations: when
“normal” object traversal is not able to find an exposed method, it
begins popping the stack of “not found” handlers. If the handler is a
“_default” method, it is called with the rest of the path as positional
parameters passed into the default method.
The not found handler stack can also contain “lookup” methods, which are different, as they are not actual controllers.
A lookup method takes as its argument the remaining path elements and returns an object (representing the next step in the traversal) and a (possibly modified) list of remaining path elements. So a blog might have controllers that look something like this:
class BlogController(BaseController):
@expose()
def _lookup(self, year, month, day, id, *remainder):
dt = date(int(year), int(month), int(day))
blog_entry = BlogEntryController(dt, int(id))
return blog_entry, remainder
class BlogEntryController(object):
def __init__(self, dt, id):
self.entry = model.BlogEntry.get_by(date=dt, id=id)
@expose(...)
def index(self):
...
@expose(...)
def edit(self):
...
@expose()
def update(self):
....
So a URL request to …/2007/6/28/0/edit would map first to the BlogController’s _lookup method, which would lookup the date, instantiate a new BlogEntryController object (blog_entry), and pass that blog_entry object back to the object dispatcher, which uses the remainder do continue dispatch, finding the edit method. And of course the edit method would have access to self.entry, which was looked up and saved in the object along the way.
In other situations, you might have a several-layers-deep “_lookup” chain, e.g. for editing hierarchical data (/client/1/project/2/task/3/edit).
The benefit over “_default” handlers is that you return an object that acts as a sub-controller and continue traversing rather than being a controller and stopping traversal altogether. This allows you to use actual objects with data in your controllers.
Plus, it makes RESTful URLs much easier than they were in TurboGears 1.
Since TurboGears 2.1.4 it is possible to ask for various informations about the request dispatchment and controllers mount points.
Those informations can be useful when writing controllers that you plan to reuse in multiple applications or mount points, making possible for example to generate all the urls knowing where they are mounted.
For statically mounted controllers the exposed informations are:
mount_point property of a controller. If statically mounted
it will return where the controller is mounted. This is the
url to call when you want to access that controller.mount_steps property of a controller. If statically mounted
it will return the complete list of parents of that controller.In the case you are dispatching the request yourself, for example
through a _lookup method, the mount_point and mount_steps
informations won’t be available. In this case you can rely
on some other functions exposed by TG:
tg.request.controller_state object keeps track of all
the steps provided to dispatch the request.tg.dispatched_controller() method when called inside
a request will return the last statically mounted controller.
This can be useful to detect which controller finished the
request dispatch using the _lookup method.The application RootController can usually be retrieved from
tg.config['application_root_module'].RootController