zope.contentprovider¶
This package provides a framework to develop componentized Web GUI applications. Instead of describing the content of a page using a single template or static system of templates and METAL macros, content provider objects are dynamically looked up based on the setup/configuration of the application.
Detailed documentation is available at https://zopecontentprovider.readthedocs.io
Documentation:
Motivation and Design Goals¶
Before diving into the features of this package let me take up a few bytes of text to explain the use cases that drove us to develop this package (also others) and how the API documented below fulfills/solves those use cases. When we started developing Zope 3, it was from a desire to decentralize functionality and thus the complexity of the Python code. And we were successful! The component architecture is a marvelous piece of software that hopefully will allow us to build scalable solutions for a very long time. However, when it comes to user interface design, in this case specifically HTML pages, we have failed to provide the features and patterns of assembling a page from configured components.
Looking up views for a particular content component and a request just simply does not work by itself. The content inside the page is still monolithic. One attempt to solve this problem are METAL macros, which allow you to insert other TAL snippets into your main template. But macros have two shortcomings. For one there is a “hard-coded” one-to-one mapping between a slot and the macro that fills that slot, which makes it impossible to register several macros for a given location. The second problem is that macros are not views in their own right; thus they cannot provide functionality that is independent of the main template’s view.
A second approach to modular UI design are rendering pipes. Rendering pipes have the great advantage that they can reach all regions of the page during every step of the rendering process. For example, if we have a widget in the middle of the page that requires some additional Javascript, then it is easy for a rendering unit to insert the Javascript file link in the HTML header of the page. This type of use case is very hard to solve using page templates. However, pipes are not the answer to componentized user interface, since they cannot simply deal with registering random content for a given page region. In fact, I propose that pipelines are orthogonal to content providers, the concept introduced below. A pipeline framework could easily use functionality provided by this and other packages to provide component-driven UI design.
So our goal is clear: Bring the pluggability of the component architecture into page templates and user interface design. Zope is commonly known to reinvent the wheel, develop its own terminology and misuse other’s terms. For example, the Plone community has a very different understanding of what a “portlet” is compared to the commonly accepted meaning in the corporate world, which derives its definition from JSR 168. Therefore an additional use case of the design of this package was to stick with common terms and use them in their original meaning – well, given a little extra twist.
The most basic user interface component in the Web application Java world is the “content provider” [1]. A content provider is simply responsible for providing HTML content for a page. This is equivalent to a view that does not provide a full page, but just a snippet, much like widgets or macros. Once there is a way to configure those content providers, we need a way to insert them into our page templates. In our implementation this is accomplished using a new TALES namespace that allows to insert content providers by name. But how, you might wonder, does this provide a componentized user interface? On the Zope 3 level, each content provider is registered as a presentation component discriminated by the context, request and view it will appear in. Thus different content providers will be picked for different configurations.
Okay, that’s pretty much everything there is to say about content providers. What, we are done? Hold on, what about defining regions of pages and filling them configured UI snippets. The short answer is: See the zope.viewlet package. But let me also give you the long answer. This and the other packages were developed using real world use cases. While doing this, we noticed that not every project would need, for example, all the features of a portlet, but would still profit from lower-level features. Thus we decided to declare clear boundaries of functionality and providing each level in a different package. This particular package is only meant to provide the interface between the content provider world and page templates.
[1] | Note that this is a bit different from the role named content provider, which refers to a service that provides content; the content provider we are talking about here are the software components the service would provide to an application. |
Content Providers¶
“Content Provider” is a term from the Java world that refers to components that can provide HTML content. It means nothing more! How the content is found and returned is totally up to the implementation. The Zope 3 touch to the concept is that content providers are multi-adapters that are looked up by the context, request (and thus the layer/skin), and view they are displayed in.
The second important concept of content providers are their two-phase rendering design. In the first phase the state of the content provider is prepared and, if applicable, any data the provider is responsible for is updated.
>>> from zope.contentprovider import interfaces
So let’s create a simple content provider:
>>> import zope.interface
>>> import zope.component
>>> from zope.publisher.interfaces import browser
>>> @zope.interface.implementer(interfaces.IContentProvider)
... @zope.component.adapter(zope.interface.Interface,
... browser.IDefaultBrowserLayer,
... zope.interface.Interface)
... class MessageBox(object):
... message = u'My Message'
...
... def __init__(self, context, request, view):
... self.__parent__ = view
...
... def update(self):
... pass
...
... def render(self):
... return u'<div class="box">%s</div>' % self.message
...
... def __repr__(self):
... return '<MessageBox object at %x>' % id(self)
The update()
method is executed during phase one. Since no state needs to
be calculated and no data is modified by this simple content provider, it is
an empty implementation. The render()
method implements phase 2 of the
process. We can now instantiate the content provider (manually) and render it:
>>> box = MessageBox(None, None, None)
>>> print(box.render())
<div class="box">My Message</div>
Since our content provider did not require the context, request or view to
create its HTML content, we were able to pass trivial dummy values into the
constructor. Also note that the provider must have a parent (using the
__parent__
attribute) specified at all times. The parent must be the view
the provider appears in.
I agree, this functionally does not seem very useful now. The constructor and
the update()
method seem useless and the returned content is totally
static. However, we implemented a contract for content providers that other
code can rely on. Content providers are (commonly) instantiated using the
context, request and view they appear in and are required to always generate
its HTML using those three components.
Two-Phased Content Providers¶
Let’s now have a look at a content provider that actively uses the two-phase rendering process. The simpler scenario is the case where the content provider updates a content component without affecting anything else. So let’s create a content component to be updated,
>>> class Article(object):
... title = u'initial'
>>> article = Article()
and the content provider that is updating the title:
>>> @zope.interface.implementer(interfaces.IContentProvider)
... @zope.component.adapter(zope.interface.Interface,
... browser.IDefaultBrowserLayer,
... zope.interface.Interface)
... class ChangeTitle(object):
... fieldName = 'ChangeTitle.title'
...
... def __init__(self, context, request, view):
... self.__parent__ = view
... self.context, self.request = context, request
...
... def update(self):
... if self.fieldName in self.request:
... self.context.title = self.request[self.fieldName]
...
... def render(self):
... return u'<input name="%s" value="%s" />' % (self.fieldName,
... self.context.title)
Using a request, let’s now instantiate the content provider and go through the two-phase rendering process:
>>> from zope.publisher.browser import TestRequest
>>> request = TestRequest()
>>> changer = ChangeTitle(article, request, None)
>>> changer.update()
>>> print(changer.render())
<input name="ChangeTitle.title" value="initial" />
Let’s now enter a new title and render the provider:
>>> request = TestRequest(form={'ChangeTitle.title': u'new title'})
>>> changer = ChangeTitle(article, request, None)
>>> changer.update()
>>> print(changer.render())
<input name="ChangeTitle.title" value="new title" />
>>> print(article.title)
new title
So this was easy. Let’s now look at a case where one content provider’s update influences the content of another. Let’s say we have a content provider that displays the article’s title:
>>> @zope.interface.implementer(interfaces.IContentProvider)
... @zope.component.adapter(zope.interface.Interface,
... browser.IDefaultBrowserLayer,
... zope.interface.Interface)
... class ViewTitle(object):
...
... def __init__(self, context, request, view):
... self.context, self.__parent__ = context, view
...
... def update(self):
... pass
...
... def render(self):
... return u'<h1>Title: %s</h1>' % self.context.title
Let’s now say that the ShowTitle
content provider is shown on a page
before the ChangeTitle
content provider. If we do the full rendering
process for each provider in sequence, we get the wrong result:
>>> request = TestRequest(form={'ChangeTitle.title': u'newer title'})
>>> viewer = ViewTitle(article, request, None)
>>> viewer.update()
>>> print(viewer.render())
<h1>Title: new title</h1>
>>> changer = ChangeTitle(article, request, None)
>>> changer.update()
>>> print(changer.render())
<input name="ChangeTitle.title" value="newer title" />
So the correct way of doing this is to first complete phase 1 (update) for all providers, before executing phase 2 (render):
>>> request = TestRequest(form={'ChangeTitle.title': u'newest title'})
>>> viewer = ViewTitle(article, request, None)
>>> changer = ChangeTitle(article, request, None)
>>> viewer.update()
>>> changer.update()
>>> print(viewer.render())
<h1>Title: newest title</h1>
>>> print(changer.render())
<input name="ChangeTitle.title" value="newest title" />
UpdateNotCalled
Errors¶
Since calling update
before any other method that
mutates the provider or any other data is so important to the correct
functioning of the API, the developer has the choice to raise the
UpdateNotCalled
error, if any method is called before
update()
(with exception of the constructor):
>>> @zope.interface.implementer(interfaces.IContentProvider)
... @zope.component.adapter(zope.interface.Interface,
... browser.IDefaultBrowserLayer,
... zope.interface.Interface)
... class InfoBox(object):
...
... def __init__(self, context, request, view):
... self.__parent__ = view
... self.__updated = False
...
... def update(self):
... self.__updated = True
...
... def render(self):
... if not self.__updated:
... raise interfaces.UpdateNotCalled
... return u'<div>Some information</div>'
>>> info = InfoBox(None, None, None)
>>> info.render()
Traceback (most recent call last):
...
UpdateNotCalled: ``update()`` was not called yet.
>>> info.update()
>>> print(info.render())
<div>Some information</div>
zope.contentprovider.interfaces¶
Content provider interfaces
-
interface
zope.contentprovider.interfaces.
IUpdateNotCalled
[source]¶ Extends:
zope.interface.common.interfaces.IRuntimeError
Update Not Called
An error that is raised when any content provider method is called before the
update()
method.
-
exception
zope.contentprovider.interfaces.
UpdateNotCalled
(*args)[source]¶ Bases:
exceptions.RuntimeError
Default implementation of
IUpdateNotCalled
.
-
interface
zope.contentprovider.interfaces.
IBeforeUpdateEvent
[source]¶ Extends:
zope.interface.interfaces.IObjectEvent
A content provider will be updated
-
request
¶ The request in which the object is udpated, might also be None
-
-
class
zope.contentprovider.interfaces.
BeforeUpdateEvent
(provider, request=None)[source]¶ Bases:
zope.interface.interfaces.ObjectEvent
Default implementation of
IBeforeUpdateEvent
.
-
interface
zope.contentprovider.interfaces.
IContentProvider
[source]¶ Extends:
zope.browser.interfaces.IBrowserView
A piece of content to be shown on a page.
Objects implementing this interface are providing HTML content when they are rendered. It is up to the implementation to decide how to lookup necessary data to complete the job.
Content Providers use a two-stage process to fulfill their contract:
- The first stage is responsible to calculate the state of the content
provider and, if applicable, edit the data. This stage is executed
using the
update()
method. - During the second stage the provider constructs/renders its HTML
output based on the state that was calculated in the first stage. This
stage is executed using the
render()
method.
Content Providers are discriminated by three components: the context, the request and the view. This allows great control over the selection of the provider.
-
__parent__
¶ The view the provider appears in.
The view is the third discriminator of the content provider. It allows that the content can be controlled for different views.
Having it stored as the parent is also very important for the security context to be kept.
-
update
()¶ Initialize the content provider.
This method should perform all state calculation and not refer it to the rendering stage.
In this method, all state must be calculated from the current interaction (e.g., the browser request); all contained or managed content providers must have
update()
be called as well; any additional stateful API for contained or managed content providers must be handled; and persistent objects should be modified, if the provider is going to do it.Do not store state about persistent objects: the rendering process should actually use the persistent objects for the data, in case other components modify the object between the update and render stages.
This method must be called before any other method that mutates the instance (besides the class constructor). Non-mutating methods and attributes may raise an error if used before
update()
is called. The view may rely on this order but is not required to explicitly enforce this. Implementations may enforce it as a developer aid.
-
render
(*args, **kw)¶ Return the content provided by this content provider.
Calling this method before
update()
may (but is not required to) raise anUpdateNotCalled
error.
- The first stage is responsible to calculate the state of the content
provider and, if applicable, edit the data. This stage is executed
using the
-
interface
zope.contentprovider.interfaces.
IContentProviderType
[source]¶ Extends:
zope.interface.interfaces.IInterface
Type interface for content provider types
(interfaces derived from IContentProvider).
-
interface
zope.contentprovider.interfaces.
ITALNamespaceData
[source]¶ Extends:
zope.interface.interfaces.IInterface
A type interface that marks an interface as a TAL data specification.
All fields specified in an interface that provides
ITALNamespaceData
will be looked up in the TAL context and stored on the content provider. A content provider can have multiple interfaces that are of this type.
-
exception
zope.contentprovider.interfaces.
ContentProviderLookupError
[source]¶ Bases:
zope.interface.interfaces.ComponentLookupError
No content provider was found.
-
interface
zope.contentprovider.interfaces.
ITALESProviderExpression
[source]¶ Extends:
zope.tales.interfaces.ITALESExpression
Return the HTML content of the named provider.
To call a content provider in a view use the the following syntax in a page template:
<tal:block replace="structure provider:provider.name">
The content provider is looked up by the (context, request, view) objects and the name (
provider.name
).
The TALES provider
Expression¶
The provider
expression will look up the name of the content provider,
call it and return the HTML content. The first step, however, will be to
register our content provider with the component architecture:
>>> import zope.interface
>>> import zope.component
>>> from zope.contentprovider import interfaces
>>> from zope.publisher.interfaces import browser
>>> from zope.contentprovider.provider import ContentProviderBase
>>> class MessageBox(ContentProviderBase):
... message = u'My Message'
...
... def render(self):
... return u'<div class="box">%s</div>' % self.message
...
... def __repr__(self):
... return '<MessageBox object at %x>' % id(self)
>>> zope.component.provideAdapter(MessageBox,
... provides=interfaces.IContentProvider,
... name='mypage.MessageBox')
The content provider must be registered by name, since the TALES expression uses the name to look up the provider at run time.
Let’s now create a view using a page template:
>>> import os, tempfile
>>> temp_dir = tempfile.mkdtemp(prefix="test-zopecontentprovider-")
>>> templateFileName = os.path.join(temp_dir, 'template.pt')
>>> with open(templateFileName, 'w') as file:
... _ = file.write('''
... <html>
... <body>
... <h1>My Web Page</h1>
... <div class="left-column">
... <tal:block replace="structure provider:mypage.MessageBox" />
... </div>
... <div class="main">
... Content here
... </div>
... </body>
... </html>
... ''')
As you can see, we expect the provider
expression to simply look up the
content provider and insert the HTML content at this place.
Next we register the template as a view (browser page) for all objects:
>>> from zope.browserpage.simpleviewclass import SimpleViewClass
>>> FrontPage = SimpleViewClass(templateFileName, name='main.html')
>>> zope.component.provideAdapter(
... FrontPage,
... (zope.interface.Interface, browser.IDefaultBrowserLayer),
... zope.interface.Interface,
... name='main.html')
Let’s create a content object that can be viewed:
>>> @zope.interface.implementer(zope.interface.Interface)
... class Content(object):
... pass
>>> content = Content()
Finally we look up the view and render it. Note that a
BeforeUpdateEvent
is fired - this event should always be fired before
any content provider is updated.
>>> from zope.publisher.browser import TestRequest
>>> events = []
>>> zope.component.provideHandler(events.append, (None, ))
>>> request = TestRequest()
>>> view = zope.component.getMultiAdapter((content, request),
... name='main.html')
>>> print(view().strip())
<html>
<body>
<h1>My Web Page</h1>
<div class="left-column">
<div class="box">My Message</div>
</div>
<div class="main">
Content here
</div>
</body>
</html>
>>> events
[<zope.contentprovider.interfaces.BeforeUpdateEvent object at ...>]
The event holds the provider and the request.
>>> events[0].request
<zope.publisher.browser.TestRequest instance URL=http://127.0.0.1>
>>> events[0].object
<MessageBox object at ...>
Failure to Find a Content Provider¶
If the name is not found, an error is raised. To demonstrate this behavior let’s create another template:
>>> errorFileName = os.path.join(temp_dir, 'error.pt')
>>> with open(errorFileName, 'w') as file:
... _ = file.write('''
... <html>
... <body>
... <tal:block replace="structure provider:mypage.UnknownName" />
... </body>
... </html>
... ''')
>>> ErrorPage = SimpleViewClass(errorFileName, name='error.html')
>>> zope.component.provideAdapter(
... ErrorPage,
... (zope.interface.Interface, browser.IDefaultBrowserLayer),
... zope.interface.Interface,
... name='main.html')
>>> errorview = zope.component.getMultiAdapter((content, request),
... name='main.html')
>>> print(errorview())
Traceback (most recent call last):
...
ContentProviderLookupError: mypage.UnknownName
Additional Data from TAL¶
The provider
expression allows also for transferring data from the TAL
context into the content provider. This is accomplished by having the content
provider implement an interface that specifies the attributes and provides
ITALNamespaceData
:
>>> import zope.schema
>>> class IMessageText(zope.interface.Interface):
... message = zope.schema.Text(title=u'Text of the message box')
>>> zope.interface.directlyProvides(IMessageText,
... interfaces.ITALNamespaceData)
Now the message box can receive its text from the TAL environment:
>>> @zope.interface.implementer(IMessageText)
... class DynamicMessageBox(MessageBox):
... pass
>>> zope.component.provideAdapter(
... DynamicMessageBox, provides=interfaces.IContentProvider,
... name='mypage.DynamicMessageBox')
We are now updating our original template to provide the message text:
>>> with open(templateFileName, 'w') as file:
... _ = file.write('''
... <html>
... <body>
... <h1>My Web Page</h1>
... <div class="left-column">
... <tal:block define="message string:Hello World!"
... replace="structure provider:mypage.DynamicMessageBox" />
... <tal:block define="message string:Hello World again!"
... replace="structure provider:mypage.DynamicMessageBox" />
... </div>
... <div class="main">
... Content here
... </div>
... </body>
... </html>
... ''')
Now we should get two message boxes with different text:
>>> print(view().strip())
<html>
<body>
<h1>My Web Page</h1>
<div class="left-column">
<div class="box">Hello World!</div>
<div class="box">Hello World again!</div>
</div>
<div class="main">
Content here
</div>
</body>
</html>
Finally, a content provider can also implement several
ITALNamespaceData
:
>>> class IMessageType(zope.interface.Interface):
... type = zope.schema.TextLine(title=u'The type of the message box')
>>> zope.interface.directlyProvides(IMessageType,
... interfaces.ITALNamespaceData)
We’ll change our message box content provider implementation a bit, so the new information is used:
>>> @zope.interface.implementer(IMessageType)
... class BetterDynamicMessageBox(DynamicMessageBox):
... type = None
...
... def render(self):
... return u'<div class="box,%s">%s</div>' % (self.type, self.message)
>>> zope.component.provideAdapter(
... BetterDynamicMessageBox, provides=interfaces.IContentProvider,
... name='mypage.MessageBox')
Of course, we also have to make our template a little bit more dynamic as well:
>>> with open(templateFileName, 'w') as file:
... _ = file.write('''
... <html>
... <body>
... <h1>My Web Page</h1>
... <div class="left-column">
... <tal:block define="message string:Hello World!;
... type string:error"
... replace="structure provider:mypage.MessageBox" />
... <tal:block define="message string:Hello World again!;
... type string:warning"
... replace="structure provider:mypage.MessageBox" />
... </div>
... <div class="main">
... Content here
... </div>
... </body>
... </html>
... ''')
Now we should get two message boxes with different text and types:
>>> print(view().strip())
<html>
<body>
<h1>My Web Page</h1>
<div class="left-column">
<div class="box,error">Hello World!</div>
<div class="box,warning">Hello World again!</div>
</div>
<div class="main">
Content here
</div>
</body>
</html>
ILocation¶
If our content provider implements
zope.location.interfaces.ILocation
, then it will have its
__name__
set to the name that was used to invoke it.
>>> from zope.location.interfaces import ILocation
>>> @zope.interface.implementer(ILocation)
... class LocationDynamicMessageBox(BetterDynamicMessageBox):
...
... def render(self):
... return u'<div class="box">%s</div>' % (self.__name__,)
>>> zope.component.provideAdapter(
... LocationDynamicMessageBox, provides=interfaces.IContentProvider,
... name='mypage.MessageBox')
>>> print(view().strip())
<html>
<body>
<h1>My Web Page</h1>
<div class="left-column">
<div class="box">mypage.MessageBox</div>
<div class="box">mypage.MessageBox</div>
</div>
<div class="main">
Content here
</div>
</body>
</html>
zope.contentprovider.tales¶
Provider TALES expression
-
zope.contentprovider.tales.
addTALNamespaceData
(provider, context)[source]¶ Add the requested TAL attributes to the provider
-
class
zope.contentprovider.tales.
TALESProviderExpression
(name, expr, engine)[source]¶ Bases:
zope.tales.expressions.StringExpr
Collect content provider via a TAL namespace.
Note that this implementation of the TALES
provider
namespace does not work with interdependent content providers, since each content-provider’s stage one call is made just before the second stage is executed. If you want to implement interdependent content providers, you need to consider a TAL-independent view implementation such as zope.viewlet that will complete all content providers’ stage one before rendering any of them.Implements
zope.contentprovider.interfaces.ITALESProviderExpression
Provided Base Classes¶
The zope.contentprovider.provider
module provides an useful base
class for implementing content providers. It has all boilerplate code
and it’s only required to override the render
method to make it
work:
>>> from zope.contentprovider import interfaces
>>> from zope.contentprovider.provider import ContentProviderBase
>>> class MyProvider(ContentProviderBase):
... def render(self, *args, **kwargs):
... return 'Hi there'
>>> provider = MyProvider(None, None, None)
>>> interfaces.IContentProvider.providedBy(provider)
True
>>> provider.update()
>>> print(provider.render())
Hi there
Note that it can’t be used as is, without providing the render
method:
>>> bad = ContentProviderBase(None, None, None)
>>> bad.update()
>>> print(bad.render())
Traceback (most recent call last):
...
NotImplementedError: ``render`` method must be implemented by subclass
You can add the update logic into the update
method as with any content
provider and you can implement more complex rendering patterns, based on
templates, using this ContentProviderBase class as a base.
You might also want to look at the zope.viewlet package for a more featureful API.
zope.contentprovider.provider¶
Simple base class for implementing content providers
-
class
zope.contentprovider.provider.
ContentProviderBase
(context, request, view)[source]¶ Bases:
zope.publisher.browser.BrowserView
Base class for content providers
Changes¶
4.2.1 (2018-11-08)¶
- Fix deprecation warnings.
4.2 (2018-10-05)¶
- Add support for Python 3.7.
- Fixed UpdateNotCalled being an instance rather than an exception class (#4).
- Host documentation at https://zopecontentprovider.readthedocs.io
4.1.0 (2017-08-08)¶
- Add support for Python 3.5 and 3.6.
- Drop support for Python 2.6 and 3.3.
4.0.0 (2014-12-24)¶
- Add support for PyPy and PyPy3.
- Add support for Python 3.4.
- Add support for testing on Travis.
4.0.0a1 (2013-02-22)¶
- Add Python 3.3 support.
- Replace deprecated
zope.component.adapts
usage with equivalentzope.component.adapter
decorator. - Replace deprecated
zope.interface.implements
usage with equivalentzope.interface.implementer
decorator. - Drop support for Python 2.4 and 2.5.
3.7.2 (2010-05-25)¶
- Fix unit tests broken under Python 2.4 by the switch to the standard
library
doctest
module.
3.7.1 (2010-04-30)¶
- Prefer the standard library’s
doctest
module to the one fromzope.testing.
3.7 (2010-04-27)¶
- Since
tales:expressiontype
is now inzope.browserpage
, update conditional ZCML accordingly so it doesn’t depend on the presence ofzope.app.pagetemplate
anymore.
3.6.1 (2009-12-23)¶
- Ensure that our
configure.zcml
can be loaded without requiring further dependencies. It uses atales:expressiontype
directive defined inzope.app.pagetemplate.
We keep that dependency optional, as not all consumers of this package use ZCML to configure the expression type.
3.6.0 (2009-12-22)¶
- Update test dependency to use
zope.browserpage
.
3.5.0 (2009-03-18)¶
- Add very simple, but useful base class for implementing content
providers, see
zope.contentprovider.provider.ContentProviderBase
. - Remove unneeded testing dependencies. We only need
zope.testing
andzope.app.pagetemplate
. - Remove zcml slug and old zpkg-related files.
- Add setuptools dependency to setup.py.
- Clean up package’s description and documentation a bit. Remove duplicate text in README.
- Change mailing list address to zope-dev at zope.org instead of retired one.
- Change
cheeseshop
topypi
in the package url.
3.4.0 (2007-10-02)¶
- Initial release independent of the main Zope tree.