[doc] Improvement to the Views chapter. Moved content about the main template in the Templates chapter.
.. -*- coding: utf-8 -*-
.. _DefinitionVues:
Views definition
================
This chapter aims to describe the concept of a `view` used all along
the development of a web application and how it has been implemented
in `CubicWeb`.
We'll start with a description of the interface providing you a basic
understanding of the classes and methods available. We'll also
take time to develop the view selection principle we implemented
which is very unique to `CubicWeb` and makes it powerfull.
Basic class for views
---------------------
Class `View` (`cubicweb.common.view`)
`````````````````````````````````````
This class is an abstraction of a view class, used as a base for every
renderable object such as views, templates, graphic components... web.
A `View` is instantiated to render a or part of a result set. `View`
subclasses may be parametrized using the following class attributes:
* `templatable` indicates if the view may be embeded in a main
template or if it has to be rendered standalone (i.e. XML for
instance)
* if the view is not templatable, it should set the `content_type` class
attribute to the correct MIME type (text/xhtml by default)
* the `category` attribute may be used in the interface to regroup related
objects together
At instantiation time, the standard `req`, `rset`, and `cursor`
attributes are added and the `w` attribute will be set at rendering
time to a write function to use.
A view writes in its output exit thanks to its attribute `w` (`UStreamIO`).
The basic interface for views is as follows:
* `dispatch(**context)`, render the view by calling `call` or
`cell_call` depending on the given parameters
* `call(**kwargs)`, call the view for a complete result set or null and call
the method `cell_call()` on each cell of the result set
* `cell_call(row, col, **kwargs)`, call the view for a given cell of a result set
* `url()`, returns the URL enabling us to get the view with the current
result set
* `view(__vid, rset, __fallback_vid=None, **kwargs)`, call the view of identifier
`__vid` on the given result set. It is possible to give a view identifier
of fallback that will be used if the view requested is not applicable to the
result set
* `wview(__vid, rset, __fallback_vid=None, **kwargs)`, similar to `view` except
the flow is automatically passed in the parameters
* `html_headers()`, returns a list of HTML headers to set by the main template
* `page_title()`, returns the title to use in the HTML header `title`
* `creator(eid)`, returns the eid and the login of the entity creator of the entity
having the eid given in the parameter
Other basic views classes
`````````````````````````
Here are some of the subclasses of `View` defined in `cubicweb.common.view`
that are more concrete as they relates to data rendering within the application:
* `EntityView`, view applying to lines or cell containing an entity (e.g. an eid)
* `StartupView`, start view that does not require a result set to apply to
* `AnyRsetView`, view applied to any result set
* `EmptyRsetView`, view applied to an empty result set
The selection view principle
----------------------------
A view includes :
- an identifier (all objects in `CubicWeb` are entered in a registry
and this identifier will be used as a key). This is defined in the class
attribute ``id``.
- a filter to select the resulsets it can be applied to. This is defined in
the class attribute ``__selectors__``
For a given identifier, multiple views can be defined. `CubicWeb` uses
a selector which computes scores so that it can identify and select the
best view to apply in context. The selector library is in
``cubicweb.common.selector`` and a library of the methods used to
compute scores is in ``cubicweb.vregistry.vreq``.
`CubicWeb` provides a lot of standard views for the default class
`EntityType`. You can find them in ``cubicweb/web/views/``.
.. include:: B1021-views-stdlib.en.txt
Example of a view customization
-------------------------------
We'll show you now an example of a ``primary`` view and how to customize it.
If you want to change the way a ``BlogEntry`` is displayed, just
override the method ``cell_call()`` of the view ``primary`` in ``BlogDemo/views.py`` ::
01. from ginco.web.views import baseviews
02.
03. class BlogEntryPrimaryView(baseviews.PrimaryView):
04.
05. accepts = ('BlogEntry',)
06.
07. def cell_call(self, row, col):
08. entity = self.entity(row, col)
09. self.w(u'<h1>%s</h1>' % entity.title)
10. self.w(u'<p>published on %s in category %s</p>' % \
11. (entity.publish_date.strftime('%Y-%m-%d'), entity.category))
12. self.w(u'<p>%s</p>' % entity.text)
The above source code defines a new primary view (`line 03`) for
``BlogEntry`` (`line 05`).
Since views are applied to resultsets and resulsets can be tables of
data, it is needed to recover the entity from its (row,col)
coordinates (`line 08`). We will get to this in more detail later.
The view has a ``self.w()`` method that is used to output data. Here `lines
09-12` output HTML tags and values of the entity's attributes.
When displaying same blog entry as before, you will notice that the
page is now looking much nicer.
.. image:: images/lax-book.09-new-view-blogentry.en.png
:alt: blog entries now look much nicer
Let us now improve the primary view of a blog ::
01. class BlogPrimaryView(baseviews.PrimaryView):
02.
03. accepts = ('Blog',)
04.
05. def cell_call(self, row, col):
06. entity = self.entity(row, col)
07. self.w(u'<h1>%s</h1>' % entity.title)
08. self.w(u'<p>%s</p>' % entity.description)
09. rset = self.req.execute('Any E WHERE E entry_of B, B eid "%s"' % entity.eid)
10. self.wview('primary', rset)
In the above source code, `lines 01-08` are similar to the previous
view we defined.
At `line 09`, a simple request in made to build a resultset with all
the entities linked to the current ``Blog`` entity by the relationship
``entry_of``. The part of the framework handling the request knows
about the schema and infer that such entities have to be of the
``BlogEntry`` kind and retrieves them.
The request returns a selection of data called a resultset. At
`line 10` the view 'primary' is applied to this resultset to output
HTML.
**This is to be compared to interfaces and protocols in object-oriented
languages. Applying a given view to all the entities of a resultset only
requires the availability, for each entity of this resultset, of a
view with that name that can accepts the entity.**
Assuming we added entries to the blog titled `MyLife`, displaying it
now allows to read its description and all its entries.
.. image:: images/lax-book.10-blog-with-two-entries.en.png
:alt: a blog and all its entries
**Before we move forward, remember that the selection/view principle is
at the core of `CubicWeb`. Everywhere in the engine, data is requested
using the RQL language, then HTML/XML/text/PNG is output by applying a
view to the resultset returned by the query. That is where most of the
flexibility comes from.**
[WRITE ME]
* implementing interfaces, calendar for blog entries
* show that a calendar view can export data to ical
We will implement the `cubicweb.interfaces.ICalendarable` interfaces on
entities.BlogEntry and apply the OneMonthCalendar and iCalendar views
to resultsets like "Any E WHERE E is BlogEntry"
* create view "blogentry table" with title, publish_date, category
We will show that by default the view that displays
"Any E,D,C WHERE E publish_date D, E category C" is the table view.
Of course, the same can be obtained by calling
self.wview('table',rset)
* in view blog, select blogentries and apply view "blogentry table"
* demo ajax by filtering blogentry table on category
we did the same with 'primary', but with tables we can turn on filters
and show that ajax comes for free.
[FILLME]
Templates
---------
*Templates* are specific view that does not depend on a result set. The basic
class `Template` (`cubicweb.common.view`) is derived from the class `View`.
To build a HTML page, a *main template* is used. In general, the template of
identifier `main` is the one to use (it is not used in case an error is raised or for
the login form for example). This template uses other templates in addition
to the views which depends on the content to generate the HTML page to return.
A *template* is responsible for:
1. executing RQL query of data to render if necessary
2. identifying the view to use to render data if it is not specified
3. composing the HTML page to return
You will find out more about templates in :ref:`templates`.
XML views, binaries...
----------------------
For the views generating other formats that HTML (an image generated dynamically
for example), and which can not usually be included in the HTML page generated
by the main template (see above), you have to:
* set the atribute `templatable` of the class to `False`
* set, through the attribute `content_type` of the class, the MIME type generated
by the view to `application/octet-stream`
For the views dedicated to binary content creation (an image dynamically generated
for example), we have to set the attribute `binary` of the class to `True` (which
implies that `templatable == False`, so that the attribute `w` of the view could be
replaced by a binary flow instead of unicode).
(X)HTML tricks to apply
-----------------------
Some web browser (Firefox for example) are not happy with empty `<div>`
(by empty we mean that there is no content in the tag, but there
could be attributes), so we should always use `<div></div>` even if
it is empty and not use `<div/>`.