A :term:`template` is a file on disk which can be used to render dynamic data provided by a :term:`view`. :app:`Pyramid` offers a number of ways to perform templating tasks out of the box, and provides add-on templating support through a set of bindings packages.
Out of the box, :app:`Pyramid` provides templating via the :term:`Chameleon` and :term:`Mako` templating libraries. :term:`Chameleon` provides support for two different types of templates: :term:`ZPT` templates, and text templates.
Before discussing how built-in templates are used in detail, we'll discuss two ways to render templates within :app:`Pyramid` in general: directly, and via renderer configuration.
.. index:: single: templates used directly
The most straightforward way to use a template within :app:`Pyramid` is to cause it to be rendered directly within a :term:`view callable`. You may use whatever API is supplied by a given templating engine to do so.
:app:`Pyramid` provides various APIs that allow you to render templates
directly from within a view callable. For example, if there is a
:term:`Chameleon` ZPT template named foo.pt
in a directory named
templates
in your application, you can render the template from
within the body of a view callable like so:
from pyramid.renderers import render_to_response
def sample_view(request):
return render_to_response('templates/foo.pt',
{'foo':1, 'bar':2},
request=request)
Warning
Earlier iterations of this documentation (pre-version-1.3) encouraged the application developer to use ZPT-specific APIs such as :func:`pyramid.chameleon_zpt.render_template_to_response` and :func:`pyramid.chameleon_zpt.render_template` to render templates directly. This style of rendering still works, but at least for purposes of this documentation, those functions are deprecated. Application developers are encouraged instead to use the functions available in the :mod:`pyramid.renderers` module to perform rendering tasks. This set of functions works to render templates for all renderer extensions registered with :app:`Pyramid`.
The sample_view
:term:`view callable` function above returns a
:term:`response` object which contains the body of the
templates/foo.pt
template. In this case, the templates
directory should live in the same directory as the module containing
the sample_view
function. The template author will have the names
foo
and bar
available as top-level names for replacement or
comparison purposes.
In the example above, the path templates/foo.pt
is relative to the
directory containing the file which defines the view configuration.
In this case, this is the directory containing the file that
defines the sample_view
function. Although a renderer path is
usually just a simple relative pathname, a path named as a renderer
can be absolute, starting with a slash on UNIX or a drive letter
prefix on Windows.
Warning
Only :term:`Chameleon` templates support defining a renderer for a
template relative to the location of the module where the view
callable is defined. Mako templates, and other templating system
bindings work differently. In particular, Mako templates use a
"lookup path" as defined by the mako.directories
configuration
file instead of treating relative paths as relative to the current
view module. See :ref:`mako_templates`.
The path can alternately be a :term:`asset specification` in the form
some.dotted.package_name:relative/path
. This makes it possible to
address template assets which live in another package. For example:
from pyramid.renderers import render_to_response
def sample_view(request):
return render_to_response('mypackage:templates/foo.pt',
{'foo':1, 'bar':2},
request=request)
An asset specification points at a file within a Python package.
In this case, it points at a file named foo.pt
within the
templates
directory of the mypackage
package. Using a
asset specification instead of a relative template name is usually
a good idea, because calls to render_to_response
using asset
specifications will continue to work properly if you move the code
containing them around.
Note
Mako templating system bindings also respect absolute asset
specifications as an argument to any of the render*
commands. If a
template name defines a :
(colon) character and is not an absolute
path, it is treated as an absolute asset specification.
In the examples above we pass in a keyword argument named request
representing the current :app:`Pyramid` request. Passing a request
keyword argument will cause the render_to_response
function to
supply the renderer with more correct system values (see
:ref:`renderer_system_values`), because most of the information required
to compose proper system values is present in the request. If your
template relies on the name request
or context
, or if you've
configured special :term:`renderer globals`, make sure to pass
request
as a keyword argument in every call to to a
pyramid.renderers.render_*
function.
Every view must return a :term:`response` object, except for views
which use a :term:`renderer` named via view configuration (which we'll
see shortly). The :func:`pyramid.renderers.render_to_response`
function is a shortcut function that actually returns a response
object. This allows the example view above to simply return the result
of its call to render_to_response()
directly.
Obviously not all APIs you might call to get response data will return a response object. For example, you might render one or more templates to a string that you want to use as response data. The :func:`pyramid.renderers.render` API renders a template to a string. We can manufacture a :term:`response` object directly, and use that string as the body of the response:
from pyramid.renderers import render
from pyramid.response import Response
def sample_view(request):
result = render('mypackage:templates/foo.pt',
{'foo':1, 'bar':2},
request=request)
response = Response(result)
return response
Because :term:`view callable` functions are typically the only code in :app:`Pyramid` that need to know anything about templates, and because view functions are very simple Python, you can use whatever templating system you're most comfortable with within :app:`Pyramid`. Install the templating system, import its API functions into your views module, use those APIs to generate a string, then return that string as the body of a :app:`Pyramid` :term:`Response` object.
For example, here's an example of using "raw" Mako from within a :app:`Pyramid` :term:`view`:
from mako.template import Template
from pyramid.response import Response
def make_view(request):
template = Template(filename='/templates/template.mak')
result = template.render(name=request.params['name'])
response = Response(result)
return response
You probably wouldn't use this particular snippet in a project, because it's easier to use the Mako renderer bindings which already exist in :app:`Pyramid`. But if your favorite templating system is not supported as a renderer extension for :app:`Pyramid`, you can create your own simple combination as shown above.
Note
If you use third-party templating languages without cooperating :app:`Pyramid` bindings directly within view callables, the auto-template-reload strategy explained in :ref:`reload_templates_section` will not be available, nor will the template asset overriding capability explained in :ref:`overriding_assets_section` be available, nor will it be possible to use any template using that language as a :term:`renderer`. However, it's reasonably easy to write custom templating system binding packages for use under :app:`Pyramid` so that templates written in the language can be used as renderers. See :ref:`adding_and_overriding_renderers` for instructions on how to create your own template renderer and :ref:`available_template_system_bindings` for example packages.
If you need more control over the status code and content-type, or other response attributes from views that use direct templating, you may set attributes on the response that influence these values.
Here's an example of changing the content-type and status of the response object returned by :func:`~pyramid.renderers.render_to_response`:
from pyramid.renderers import render_to_response
def sample_view(request):
response = render_to_response('templates/foo.pt',
{'foo':1, 'bar':2},
request=request)
response.content_type = 'text/plain'
response.status_int = 204
return response
Here's an example of manufacturing a response object using the result of :func:`~pyramid.renderers.render` (a string):
from pyramid.renderers import render
from pyramid.response import Response
def sample_view(request):
result = render('mypackage:templates/foo.pt',
{'foo':1, 'bar':2},
request=request)
response = Response(result)
response.content_type = 'text/plain'
return response
.. index:: single: templates used as renderers single: template renderers single: renderer (template)
.. index:: pair: renderer; system values
When a template is rendered using :func:`~pyramid.renderers.render_to_response` or :func:`~pyramid.renderers.render`, the renderer representing the template will be provided with a number of system values. These values are provided in a dictionary to the renderer and include:
context
- The current :app:`Pyramid` context if
request
was provided as a keyword argument, orNone
. request
- The request provided as a keyword argument.
renderer_name
- The renderer name used to perform the rendering,
e.g.
mypackage:templates/foo.pt
. renderer_info
- An object implementing the :class:`pyramid.interfaces.IRendererInfo`
interface. Basically, an object with the following attributes:
name
,package
andtype
.
You can define more values which will be passed to every template executed as a result of rendering by defining :term:`renderer globals`.
What any particular renderer does with these system values is up to the renderer itself, but most template renderers, including Chameleon and Mako renderers, make these names available as top-level template variables.
.. index:: pair: renderer; templates
An alternative to using :func:`~pyramid.renderers.render_to_response` to render templates manually in your view callable code, is to specify the template as a :term:`renderer` in your view configuration. This can be done with any of the templating languages supported by :app:`Pyramid`.
To use a renderer via view configuration, specify a template
:term:`asset specification` as the renderer
argument, or
attribute to the :term:`view configuration` of a :term:`view
callable`. Then return a dictionary from that view callable. The
dictionary items returned by the view callable will be made available
to the renderer template as top-level names.
The association of a template as a renderer for a :term:`view configuration` makes it possible to replace code within a :term:`view callable` that handles the rendering of a template.
Here's an example of using a :class:`~pyramid.view.view_config` decorator to specify a :term:`view configuration` that names a template renderer:
from pyramid.view import view_config
@view_config(renderer='templates/foo.pt')
def my_view(request):
return {'foo':1, 'bar':2}
Note
You do not need to supply the request
value as a key
in the dictionary result returned from a renderer-configured view
callable. :app:`Pyramid` automatically supplies this value for
you so that the "most correct" system values are provided to
the renderer.
Warning
The renderer
argument to the @view_config
configuration decorator
shown above is the template path. In the example above, the path
templates/foo.pt
is relative. Relative to what, you ask? Because
we're using a Chameleon renderer, it means "relative to the directory in
which the file which defines the view configuration lives". In this case,
this is the directory containing the file that defines the my_view
function. View-configuration-relative asset specifications work only
in Chameleon, not in Mako templates.
Similar renderer configuration can be done imperatively. See :ref:`views_which_use_a_renderer`. See also :ref:`built_in_renderers`.
Although a renderer path is usually just a simple relative pathname, a path
named as a renderer can be absolute, starting with a slash on UNIX or a drive
letter prefix on Windows. The path can alternately be an :term:`asset
specification` in the form some.dotted.package_name:relative/path
, making
it possible to address template assets which live in another package.
Not just any template from any arbitrary templating system may be used as a renderer. Bindings must exist specifically for :app:`Pyramid` to use a templating language template as a renderer. Currently, :app:`Pyramid` has built-in support for two Chameleon templating languages: ZPT and text, and the Mako templating system. See :ref:`built_in_renderers` for a discussion of their details. :app:`Pyramid` also supports the use of :term:`Jinja2` templates as renderers. See :ref:`available_template_system_bindings`.
Why Use A Renderer via View Configuration
Using a renderer in view configuration is usually a better way to render templates than using any rendering API directly from within a :term:`view callable` because it makes the view callable more unit-testable. Views which use templating or rendering APIs directly must return a :term:`Response` object. Making testing assertions about response objects is typically an indirect process, because it means that your test code often needs to somehow parse information out of the response body (often HTML). View callables configured with renderers externally via view configuration typically return a dictionary, as above. Making assertions about results returned in a dictionary is almost always more direct and straightforward than needing to parse HTML.
By default, views rendered via a template renderer return a :term:`Response`
object which has a status code of 200 OK
, and a content-type of
text/html
. To vary attributes of the response of a view that uses a
renderer, such as the content-type, headers, or status attributes, you must
use the API of the :class:`pyramid.response.Response` object exposed as
request.response
within the view before returning the dictionary. See
:ref:`request_response_attr` for more information.
The same set of system values are provided to templates rendered via a renderer view configuration as those provided to templates rendered imperatively. See :ref:`renderer_system_values`.
.. index:: single: Chameleon ZPT templates single: ZPT templates (Chameleon)
:term:`Chameleon` ZPT Templates
Like :term:`Zope`, :app:`Pyramid` uses :term:`ZPT` (Zope Page Templates) as its default templating language. However, :app:`Pyramid` uses a different implementation of the :term:`ZPT` specification than Zope does: the :term:`Chameleon` templating engine. The Chameleon engine complies largely with the Zope Page Template template specification. However, it is significantly faster.
The language definition documentation for Chameleon ZPT-style templates is available from the Chameleon website.
Warning
:term:`Chameleon` only works on :term:`CPython` platforms and
:term:`Google App Engine`. On :term:`Jython` and other non-CPython
platforms, you should use Mako (see :ref:`mako_templates`) or
pyramid_jinja2
instead. See
:ref:`available_template_system_bindings`.
Given a :term:`Chameleon` ZPT template named foo.pt
in a directory
in your application named templates
, you can render the template as
a :term:`renderer` like so:
from pyramid.view import view_config
@view_config(renderer='templates/foo.pt')
def my_view(request):
return {'foo':1, 'bar':2}
See also :ref:`built_in_renderers` for more general information about renderers, including Chameleon ZPT renderers.
.. index:: single: ZPT template (sample)
Here's what a simple :term:`Chameleon` ZPT template used under :app:`Pyramid` might look like:
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN"
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd">
<html xmlns="http://www.w3.org/1999/xhtml"
xmlns:tal="http://xml.zope.org/namespaces/tal">
<head>
<meta http-equiv="content-type" content="text/html; charset=utf-8" />
<title>${project} Application</title>
</head>
<body>
<h1 class="title">Welcome to <code>${project}</code>, an
application generated by the <a
href="http://docs.pylonsproject.org/projects/pyramid/current/"
>pyramid</a> web
application framework.</h1>
</body>
</html>
Note the use of :term:`Genshi` -style ${replacements}
above. This
is one of the ways that :term:`Chameleon` ZPT differs from standard
ZPT. The above template expects to find a project
key in the set
of keywords passed in to it via :func:`~pyramid.renderers.render` or
:func:`~pyramid.renderers.render_to_response`. Typical ZPT
attribute-based syntax (e.g. tal:content
and tal:replace
) also
works in these templates.
.. index:: single: ZPT macros single: Chameleon ZPT macros
Using ZPT Macros in :app:`Pyramid`
When a :term:`renderer` is used to render a template, :app:`Pyramid` makes at
least two top-level names available to the template by default: context
and request
. One of the common needs in ZPT-based templates is to use
one template's "macros" from within a different template. In Zope, this is
typically handled by retrieving the template from the context
. But the
context in :app:`Pyramid` is a :term:`resource` object, and templates cannot
usually be retrieved from resources. To use macros in :app:`Pyramid`, you
need to make the macro template itself available to the rendered template by
passing the macro template, or even the macro itself, into the rendered
template. To do this you can use the :func:`pyramid.renderers.get_renderer`
API to retrieve the macro template, and pass it into the template being
rendered via the dictionary returned by the view. For example, using a
:term:`view configuration` via a :class:`~pyramid.view.view_config` decorator
that uses a :term:`renderer`:
from pyramid.renderers import get_renderer
from pyramid.view import view_config
@view_config(renderer='templates/mytemplate.pt')
def my_view(request):
main = get_renderer('templates/master.pt').implementation()
return {'main':main}
Where templates/master.pt
might look like so:
<html xmlns="http://www.w3.org/1999/xhtml"
xmlns:tal="http://xml.zope.org/namespaces/tal"
xmlns:metal="http://xml.zope.org/namespaces/metal">
<span metal:define-macro="hello">
<h1>
Hello <span metal:define-slot="name">Fred</span>!
</h1>
</span>
</html>
And templates/mytemplate.pt
might look like so:
<html xmlns="http://www.w3.org/1999/xhtml"
xmlns:tal="http://xml.zope.org/namespaces/tal"
xmlns:metal="http://xml.zope.org/namespaces/metal">
<span metal:use-macro="main.macros['hello']">
<span metal:fill-slot="name">Chris</span>
</span>
</html>
.. index:: single: Chameleon text templates
Templating with :term:`Chameleon` Text Templates
:app:`Pyramid` also allows for the use of templates which are
composed entirely of non-XML text via :term:`Chameleon`. To do so,
you can create templates that are entirely composed of text except for
${name}
-style substitution points.
Here's an example usage of a Chameleon text template. Create a file
on disk named mytemplate.txt
in your project's templates
directory with the following contents:
Hello, ${name}!
Then in your project's views.py
module, you can create a view
which renders this template:
from pyramid.view import view_config
@view_config(renderer='templates/mytemplate.txt')
def my_view(request):
return {'name':'world'}
When the template is rendered, it will show:
Hello, world!
If you'd rather use templates directly within a view callable (without the indirection of using a renderer), see :ref:`chameleon_text_module` for the API description.
See also :ref:`built_in_renderers` for more general information about renderers, including Chameleon text renderers.
.. index:: single: template renderer side effects
When a Chameleon template is rendered from a file, the templating
engine writes a file in the same directory as the template file itself
as a kind of cache, in order to do less work the next time the
template needs to be read from disk. If you see "strange" .py
files showing up in your templates
directory (or otherwise
directly "next" to your templates), it is due to this feature.
If you're using a version control system such as Subversion, you
should configure it to ignore these files. Here's the contents of the
author's svn propedit svn:ignore .
in each of my templates
directories.
*.pt.py
*.txt.py
Note that I always name my Chameleon ZPT template files with a .pt
extension and my Chameleon text template files with a .txt
extension so that these svn:ignore
patterns work.
.. index:: pair: debugging; templates
The exceptions raised by Chameleon templates when a rendering fails are sometimes less than helpful. :app:`Pyramid` allows you to configure your application development environment so that exceptions generated by Chameleon during template compilation and execution will contain nicer debugging information.
Warning
Template-debugging behavior is not recommended for production sites as it slows renderings; it's usually only desirable during development.
In order to turn on template exception debugging, you can use an environment variable setting or a configuration file setting.
To use an environment variable, start your application under a shell
using the PYRAMID_DEBUG_TEMPLATES
operating system environment
variable set to 1
, For example:
$ PYRAMID_DEBUG_TEMPLATES=1 bin/paster serve myproject.ini
To use a setting in the application .ini
file for the same
purpose, set the pyramid.debug_templates
key to true
within
the application's configuration section, e.g.:
[app:main]
use = egg:MyProject
pyramid.debug_templates = true
With template debugging off, a :exc:`NameError` exception resulting
from rendering a template with an undefined variable
(e.g. ${wrong}
) might end like this:
File "...", in __getitem__
raise NameError(key)
NameError: wrong
Note that the exception has no information about which template was being rendered when the error occured. But with template debugging on, an exception resulting from the same problem might end like so:
RuntimeError: Caught exception rendering template.
- Expression: ``wrong``
- Filename: /home/fred/env/proj/proj/templates/mytemplate.pt
- Arguments: renderer_name: proj:templates/mytemplate.pt
template: <PageTemplateFile - at 0x1d2ecf0>
xincludes: <XIncludes - at 0x1d3a130>
request: <Request - at 0x1d2ecd0>
project: proj
macros: <Macros - at 0x1d3aed0>
context: <MyResource None at 0x1d39130>
view: <function my_view at 0x1d23570>
NameError: wrong
The latter tells you which template the error occurred in, as well as displaying the arguments passed to the template itself.
Note
Turning on pyramid.debug_templates
has the same effect as using the
Chameleon environment variable CHAMELEON_DEBUG
. See Chameleon
Environment Variables
for more information.
.. index:: single: template internationalization single: internationalization (of templates)
:term:`Chameleon` Template Internationalization
See :ref:`chameleon_translation_strings` for information about supporting internationalized units of text within :term:`Chameleon` templates.
.. index:: single: Mako
:term:`Mako` is a templating system written by Mike Bayer. :app:`Pyramid` has built-in bindings for the Mako templating system. The language definition documentation for Mako templates is available from the Mako website.
To use a Mako template, given a :term:`Mako` template file named foo.mak
in the templates
subdirectory in your application package named
mypackage
, you can configure the template as a :term:`renderer` like so:
from pyramid.view import view_config
@view_config(renderer='foo.mak')
def my_view(request):
return {'project':'my project'}
For the above view callable to work, the following setting needs to be
present in the application stanza of your configuration's ini
file:
mako.directories = mypackage:templates
This lets the Mako templating system know that it should look for templates
in the templates
subdirectory of the mypackage
Python package. See
:ref:`mako_template_renderer_settings` for more information about the
mako.directories
setting and other Mako-related settings that can be
placed into the application's ini
file.
.. index:: single: Mako template (sample)
Here's what a simple :term:`Mako` template used under :app:`Pyramid` might look like:
<html>
<head>
<title>${project} Application</title>
</head>
<body>
<h1 class="title">Welcome to <code>${project}</code>, an
application generated by the <a
href="http://docs.pylonsproject.org/projects/pyramid/current/"
>pyramid</a> web application framework.</h1>
</body>
</html>
This template doesn't use any advanced features of Mako, only the
${}
replacement syntax for names that are passed in as
:term:`renderer globals`. See the the Mako documentation to use more advanced features.
.. index:: single: automatic reloading of templates single: template automatic reload
It's often convenient to see changes you make to a template file appear immediately without needing to restart the application process. :app:`Pyramid` allows you to configure your application development environment so that a change to a template will be automatically detected, and the template will be reloaded on the next rendering.
Warning
Auto-template-reload behavior is not recommended for production sites as it slows rendering slightly; it's usually only desirable during development.
In order to turn on automatic reloading of templates, you can use an environment variable, or a configuration file setting.
To use an environment variable, start your application under a shell
using the PYRAMID_RELOAD_TEMPLATES
operating system environment
variable set to 1
, For example:
$ PYRAMID_RELOAD_TEMPLATES=1 bin/paster serve myproject.ini
To use a setting in the application .ini
file for the same
purpose, set the pyramid.reload_templates
key to true
within the
application's configuration section, e.g.:
[app:main]
use = egg:MyProject
pyramid.reload_templates = true
.. index:: single: template system bindings single: Jinja2
Jinja2 template bindings are available for :app:`Pyramid` in the
pyramid_jinja2
package. You can get the latest release of
this package from the
Python package index
(pypi).