875 lines
33 KiB
Plaintext
875 lines
33 KiB
Plaintext
====================================================
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The Django template language: For Python programmers
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====================================================
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This document explains the Django template system from a technical
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perspective -- how it works and how to extend it. If you're just looking for
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reference on the language syntax, see
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`The Django template language: For template authors`_.
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.. _`The Django template language: For template authors`: http://www.djangoproject.com/documentation/templates/
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Basics
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======
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A **template** is a text document, or a normal Python string, that is marked-up
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using the Django template language. A template can contain **block tags** or
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**variables**.
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A **block tag** is a symbol within a template that does something.
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This definition is deliberately vague. For example, a block tag can output
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content, serve as a control structure (an "if" statement or "for" loop), grab
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content from a database or enable access to other template tags.
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Block tags are surrounded by ``"{%"`` and ``"%}"``.
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Example template with block tags::
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{% if is_logged_in %}Thanks for logging in!{% else %}Please log in.{% endif %}
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A **variable** is a symbol within a template that outputs a value.
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Variable tags are surrounded by ``"{{"`` and ``"}}"``.
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Example template with variables::
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My first name is {{ first_name }}. My last name is {{ last_name }}.
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A **context** is a "variable name" -> "variable value" mapping that is passed
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to a template.
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A template **renders** a context by replacing the variable "holes" with values
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from the context and executing all block tags.
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Using the template system
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=========================
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Using the template system in Python is a two-step process:
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* First, you compile the raw template code into a ``Template`` object.
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* Then, you call the ``render()`` method of the ``Template`` object with a
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given context.
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Compiling a string
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------------------
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The easiest way to create a ``Template`` object is by instantiating it
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directly. The class lives at ``django.core.template.Template``. The constructor
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takes one argument -- the raw template code::
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>>> from django.core.template import Template
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>>> t = Template("My name is {{ my_name }}.")
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>>> print t
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<django.core.template.Template instance>
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.. admonition:: Behind the scenes
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The system only parses your raw template code once -- when you create the
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``Template`` object. From then on, it's stored internally as a "node"
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structure for performance.
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Even the parsing itself is quite fast. Most of the parsing happens via a
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single call to a single, short, regular expression.
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Rendering a context
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-------------------
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Once you have a compiled ``Template`` object, you can render a context -- or
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multiple contexts -- with it. The ``Context`` class lives at
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``django.core.template.Context``, and the constructor takes one (optional)
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argument: a dictionary mapping variable names to variable values. Call the
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``Template`` object's ``render()`` method with the context to "fill" the
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template::
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>>> from django.core.template import Context, Template
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>>> t = Template("My name is {{ my_name }}.")
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>>> c = Context({"my_name": "Adrian"})
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>>> t.render(c)
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"My name is Adrian."
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>>> c = Context({"my_name": "Dolores"})
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>>> t.render(c)
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"My name is Dolores."
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Variable names must consist of any letter (A-Z), any digit (0-9), an underscore
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or a dot.
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Dots have a special meaning in template rendering. A dot in a variable name
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signifies **lookup**. Specifically, when the template system encounters a dot
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in a variable name, it tries the following lookups, in this order:
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* Dictionary lookup. Example: ``foo["bar"]``
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* Attribute lookup. Example: ``foo.bar``
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* Method call. Example: ``foo.bar()``
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* List-index lookup. Example: ``foo[bar]``
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The template system uses the first lookup type that works. It's short-circuit
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logic.
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Here are a few examples::
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>>> from django.core.template import Context, Template
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>>> t = Template("My name is {{ person.first_name }}.")
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>>> d = {"person": {"first_name": "Joe", "last_name": "Johnson"}}
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>>> t.render(Context(d))
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"My name is Joe."
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>>> class PersonClass: pass
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>>> p = PersonClass()
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>>> p.first_name = "Ron"
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>>> p.last_name = "Nasty"
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>>> t.render(Context({"person": p}))
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"My name is Ron."
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>>> class PersonClass2:
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... def first_name(self):
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... return "Samantha"
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>>> p = PersonClass2()
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>>> t.render(Context({"person": p}))
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"My name is Samantha."
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>>> t = Template("The first stooge in the list is {{ stooges.0 }}.")
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>>> c = Context({"stooges": ["Larry", "Curly", "Moe"]})
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>>> t.render(c)
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"The first stooge in the list is Larry."
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If a variable doesn't exist, the template system fails silently. The variable
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is replaced with an empty string::
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>>> t = Template("My name is {{ my_name }}.")
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>>> c = Context({"foo": "bar"})
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>>> t.render(c)
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"My name is ."
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Method lookups are slightly more complex than the other lookup types. Here are
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some things to keep in mind:
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* If, during the method lookup, a method raises an exception, the exception
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will be propagated, unless the exception subclasses
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``django.core.template.SilentVariableFailure``. If the exception
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subclasses ``SilentVariableFailure``, the variable will render as an
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empty string. Example::
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>>> t = Template("My name is {{ person.first_name }}.")
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>>> class PersonClass3:
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... def first_name(self):
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... raise AssertionError, "foo"
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>>> p = PersonClass3()
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>>> t.render(Context({"person": p}))
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Traceback (most recent call last):
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...
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AssertionError: foo
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>>> from django.core.template import SilentVariableFailure
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>>> class SilentAssertionError(SilentVariableFailure): pass
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>>> class PersonClass4:
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... def first_name(self):
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... raise SilentAssertionError, "foo"
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>>> p = PersonClass4()
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>>> t.render(Context({"person": p}))
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"My name is ."
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* A method call will only work if the method has no required arguments.
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Otherwise, the system will move to the next lookup type (list-index
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lookup).
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* Obviously, some methods have side effects, and it'd be either foolish or
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a security hole to allow the template system to access them.
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A good example is the ``delete()`` method on each Django model object.
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The template system shouldn't be allowed to do something like this::
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I will now delete this valuable data. {{ data.delete }}
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To prevent this, set a function attribute ``alters_data`` on the method.
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The template system won't execute a method if the method has
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``alters_data=True`` set. The dynamically-generated ``delete()`` and
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``save()`` methods on Django model objects get ``alters_data=True``
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automatically. Example::
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def sensitive_function(self):
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self.database_record.delete()
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sensitive_function.alters_data = True
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Playing with Context objects
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----------------------------
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Most of the time, you'll instantiate ``Context`` objects by passing in a
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fully-populated dictionary to ``Context()``. But you can add and delete items
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from a ``Context`` object once it's been instantiated, too, using standard
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dictionary syntax::
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>>> c = Context({"foo": "bar"})
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>>> c['foo']
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'bar'
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>>> del c['foo']
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>>> c['foo']
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''
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>>> c['newvariable'] = 'hello'
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>>> c['newvariable']
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'hello'
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A ``Context`` object is a stack. That is, you can ``push()`` and ``pop()`` it.
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If you ``pop()`` too much, it'll raise
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``django.core.template.ContextPopException``::
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>>> c = Context()
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>>> c['foo'] = 'first level'
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>>> c.push()
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>>> c['foo'] = 'second level'
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>>> c['foo']
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'second level'
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>>> c.pop()
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>>> c['foo']
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'first level'
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>>> c['foo'] = 'overwritten'
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>>> c['foo']
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'overwritten'
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>>> c.pop()
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Traceback (most recent call last):
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...
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django.core.template.ContextPopException
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Using a ``Context`` as a stack comes in handy in some custom template tags, as
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you'll see below.
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Subclassing Context: DjangoContext
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----------------------------------
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Django comes with a special ``Context`` class,
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``django.core.extensions.DjangoContext``, that acts slightly differently than
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the normal ``django.core.template.Context``. The first difference is that takes
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an `HttpRequest object`_ as its first argument. For example::
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c = DjangoContext(request, {
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'foo': 'bar',
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}
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The second difference is that it automatically populates the context with a few
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variables, according to your `TEMPLATE_CONTEXT_PROCESSORS setting`_.
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The ``TEMPLATE_CONTEXT_PROCESSORS`` setting is a tuple of callables that take a
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request object as their argument and return a dictionary of items to be merged
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into the context. By default, ``TEMPLATE_CONTEXT_PROCESSORS`` is set to::
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("django.core.context_processors.auth",
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"django.core.context_processors.debug",
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"django.core.context_processors.i18n")
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Each processor is applied in order. That means, if one processor adds a
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variable to the context and a second processor adds a variable with the same
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name, the second will override the first. The default processors are explained
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below.
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Also, you can give ``DjangoContext`` a list of additional processors, using the
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optional, third positional argument, ``processors``. In this example, the
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``DjangoContext`` instance gets a ``ip_address`` variable::
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def ip_address_processor(request):
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return {'ip_address': request.META['REMOTE_ADDR']}
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def some_view(request):
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# ...
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return DjangoContext({
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'foo': 'bar',
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}, [ip_address_processor])
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Note: The concept of template-context processors is new in the Django
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development version. In Django 0.90, ``DjangoContext`` automatically populates
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the context with all of the values explained below, but it's not possible to
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add and remove processors.
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Here's what each of the default processors does:
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.. _HttpRequest object: http://www.djangoproject.com/documentation/request_response/#httprequest-objects
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.. _TEMPLATE_CONTEXT_PROCESSORS setting: http://www.djangoproject.com/documentation/settings/#template-context_processors
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django.core.context_processors.auth
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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If ``TEMPLATE_CONTEXT_PROCESSORS`` contains this processor, every
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``DjangoContext`` will contain these three variables:
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* ``user`` -- An ``auth.User`` instance representing the currently
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logged-in user (or an ``AnonymousUser`` instance, if the client isn't
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logged in). See the `user authentication docs`.
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* ``messages`` -- A list of ``auth.Message`` objects for the currently
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logged-in user.
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* ``perms`` -- An instance of ``django.core.context_processors.PermWrapper``,
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representing the permissions that the currently logged-in user has. See
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the `permissions docs`_.
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.. _user authentication docs: http://www.djangoproject.com/documentation/models/authentication/#users
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.. _permissions docs: http://www.djangoproject.com/documentation/models/authentication/#permissions
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django.core.context_processors.debug
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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If ``TEMPLATE_CONTEXT_PROCESSORS`` contains this processor, every
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``DjangoContext`` will contain these two variables -- but only if your
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``DEBUG`` setting is set to ``True`` and the request's IP address
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(``request.META['REMOTE_ADDR']``) is in the ``INTERNAL_IPS`` setting:
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* ``debug`` -- ``True``. You can use this in templates to test whether
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you're in ``DEBUG`` mode.
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* ``sql_queries`` -- A list of ``{'sql': ..., 'time': ...}`` dictionaries,
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representing every SQL query that has happened so far during the request
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and how long it took. The list is in order by query.
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django.core.context_processors.i18n
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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If ``TEMPLATE_CONTEXT_PROCESSORS`` contains this processor, every
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``DjangoContext`` will contain these two variables:
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* ``LANGUAGES`` -- The value of the `LANGUAGES setting`_.
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* ``LANGUAGE_CODE`` -- ``request.LANGUAGE_CODE``, if it exists. Otherwise,
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the value of the `LANGUAGE_CODE setting`_.
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See the `internationalization docs`_ for more.
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.. _LANGUAGES setting: http://www.djangoproject.com/documentation/settings/#languages
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.. _LANGUAGE_CODE setting: http://www.djangoproject.com/documentation/settings/#language-code
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.. _internationalization docs: http://www.djangoproject.com/documentation/i18n/
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Subclassing Context: Custom subclasses
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--------------------------------------
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Feel free to subclass ``Context`` yourself if you find yourself wanting to give
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each template something "automatically." For instance, if you want to give
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every template automatic access to the current time, use something like this::
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from django.core.template import Context
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import datetime
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class TimeContext(Context):
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def __init__(self, *args, **kwargs):
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Context.__init__(self, *args, **kwargs)
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self['current_time'] = datetime.datetime.now()
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This technique has two caveats:
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* You'll have to remember to use ``TimeContext`` instead of ``Context`` in
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your template-loading code.
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* You'll have to be careful not to set the variable ``current_time`` when
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you populate this context. If you do, you'll override the other one.
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Loading templates
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-----------------
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Generally, you'll store templates in files on your filesystem rather than using
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the low-level ``Template`` API yourself. Save templates in a file with an
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".html" extension in a directory specified as a **template directory**.
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If you don't like the requirement that templates have an ".html" extension,
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change your ``TEMPLATE_FILE_EXTENSION`` setting. It's set to ``".html"`` by
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default.
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Also, the .html extension doesn't mean templates can contain only HTML. They
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can contain whatever textual content you want.
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The TEMPLATE_DIRS setting
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~~~~~~~~~~~~~~~~~~~~~~~~~
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Tell Django what your template directories are by using the ``TEMPLATE_DIRS``
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setting in your settings file. This should be set to a list or tuple of strings
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that contain full paths to your template directory(ies). Example::
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TEMPLATE_DIRS = (
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"/home/html/templates/lawrence.com",
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"/home/html/templates/default",
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)
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Note that these paths should use Unix-style forward slashes, even on Windows.
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The Python API
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~~~~~~~~~~~~~~
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Django has two ways to load templates from files:
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``django.core.template.loader.get_template(template_name)``
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``get_template`` returns the compiled template (a ``Template`` object) for
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the template with the given name. If the template doesn't exist, it raises
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``django.core.template.TemplateDoesNotExist``.
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``django.core.template.loader.select_template(template_name_list)``
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``select_template`` is just like ``get_template``, except it takes a list
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of template names. Of the list, it returns the first template that exists.
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For example, if you call ``get_template("story_detail")`` and have the above
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``TEMPLATE_DIRS`` setting, here are the files Django will look for, in order:
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* ``/home/html/templates/lawrence.com/story_detail.html``
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* ``/home/html/templates/default/story_detail.html``
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If you call ``select_template(["story_253_detail", "story_detail"])``, here's
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what Django will look for:
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* ``/home/html/templates/lawrence.com/story_253_detail.html``
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* ``/home/html/templates/default/story_253_detail.html``
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* ``/home/html/templates/lawrence.com/story_detail.html``
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* ``/home/html/templates/default/story_detail.html``
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When Django finds a template that exists, it stops looking.
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.. admonition:: Tip
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You can use ``select_template`` for super-flexible "templatability." For
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example, if you've written a news story and want some stories to have
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custom templates, use something like
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``select_template(["story_%s_detail" % story.id, "story_detail"])``.
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That'll allow you to use a custom template for an individual story, with a
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fallback template for stories that don't have custom templates.
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Using subdirectories
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~~~~~~~~~~~~~~~~~~~~
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It's possible -- and preferable -- to organize templates in subdirectories of
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the template directory. The convention is to make a subdirectory for each
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Django app, with subdirectories within those subdirectories as needed.
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Do this for your own sanity. Storing all templates in the root level of a
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single directory gets messy.
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To load a template that's within a subdirectory, just use a slash, like so::
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get_template("news/story_detail")
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Loader types
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~~~~~~~~~~~~
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By default, Django uses a filesystem-based template loader, but Django comes
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with a few other template loaders. They're disabled by default, but you can
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activate them by editing your ``TEMPLATE_LOADERS`` setting.
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``TEMPLATE_LOADERS`` should be a tuple of strings, where each string represents
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a template loader. Here are the built-in template loaders:
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``django.core.template.loaders.filesystem.load_template_source``
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Loads templates from the filesystem, according to ``TEMPLATE_DIRS``.
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``django.core.template.loaders.app_directories.load_template_source``
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Loads templates from Django apps on the filesystem. For each app in
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``INSTALLED_APPS``, the loader looks for a ``templates`` subdirectory. If
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the directory exists, Django looks for templates in there.
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This means you can store templates with your individual apps. This also
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makes it easy to distribute Django apps with default templates.
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For example, for this setting::
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INSTALLED_APPS = ('myproject.polls', 'myproject.music')
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...then ``get_template("foo")`` will look for templates in these
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directories, in this order:
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* ``/path/to/myproject/polls/templates/foo.html``
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* ``/path/to/myproject/music/templates/foo.html``
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Note that the loader performs an optimization when it is first imported:
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It caches a list of which ``INSTALLED_APPS`` packages have a ``templates``
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subdirectory.
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``django.core.template.loaders.eggs.load_template_source``
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Just like ``app_directories`` above, but it loads templates from Python
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eggs rather than from the filesystem.
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Django uses the template loaders in order according to the ``TEMPLATE_LOADERS``
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setting. It uses each loader until a loader finds a match.
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Extending the template system
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=============================
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Although the Django template language comes with several default tags and
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filters, you might want to write your own. It's easy to do.
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First, create a ``templatetags`` package in the appropriate Django app's
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package. It should be on the same level as ``models``, ``views.py``, etc. For
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example::
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polls/
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models/
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templatetags/
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Add two files to the ``templatetags`` package: an ``__init__.py`` file and a
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file that will contain your custom tag/filter definitions. The name of the
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latter file is the name you'll use to load the tags later. For example, if your
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custom tags/filters are in a file called ``poll_extras.py``, you'd do the
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following in a template::
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{% load poll_extras %}
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The ``{% load %}`` tag looks at your ``INSTALLED_APPS`` setting and only allows
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the loading of template libraries within installed Django apps. This is a
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security feature: It allows you to host Python code for many template libraries
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on a single computer without enabling access to all of them for every Django
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installation.
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If you write a template library that isn't tied to any particular models/views,
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it's perfectly OK to have a Django app package that only contains a
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``templatetags`` package.
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There's no limit on how many modules you put in the ``templatetags`` package.
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Just keep in mind that a ``{% load %}`` statement will load tags/filters for
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the given Python module name, not the name of the app.
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Once you've created that Python module, you'll just have to write a bit of
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Python code, depending on whether you're writing filters or tags.
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To be a valid tag library, the module contain a module-level variable named
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``register`` that is a ``template.Library`` instance, in which all the tags and
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filters are registered. So, near the top of your module, put the following::
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from django.core import template
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register = template.Library()
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.. admonition:: Behind the scenes
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For a ton of examples, read the source code for Django's default filters
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and tags. They're in ``django/core/template/defaultfilters.py`` and
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``django/core/template/defaulttags.py``, respectively.
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Writing custom template filters
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-------------------------------
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**This section applies to the Django development version.**
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Custom filters are just Python functions that take one or two arguments:
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* The value of the variable (input) -- not necessarily a string.
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* The value of the argument -- this can have a default value, or be left
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out altogether.
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For example, in the filter ``{{ var|foo:"bar" }}``, the filter ``foo`` would be
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passed the variable ``var`` and the argument ``"bar"``.
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Filter functions should always return something. They shouldn't raise
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exceptions. They should fail silently. In case of error, they should return
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either the original input or an empty string -- whichever makes more sense.
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Here's an example filter definition::
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def cut(value, arg):
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"Removes all values of arg from the given string"
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return value.replace(arg, '')
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And here's an example of how that filter would be used::
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{{ somevariable|cut:"0" }}
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Most filters don't take arguments. In this case, just leave the argument out of
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your function. Example::
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def lower(value): # Only one argument.
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"Converts a string into all lowercase"
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return value.lower()
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When you've written your filter definition, you need to register it with
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your ``Library`` instance, to make it available to Django's template language::
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register.filter('cut', cut)
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register.filter('lower', lower)
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The ``Library.filter()`` method takes two arguments:
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1. The name of the filter -- a string.
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2. The compilation function -- a Python function (not the name of the
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function as a string).
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If you're using Python 2.4 or above, you can use ``register.filter()`` as a
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decorator instead::
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@register.filter(name='cut')
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def cut(value, arg):
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return value.replace(arg, '')
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@register.filter
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def lower(value):
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return value.lower()
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If you leave off the ``name`` argument, as in the second example above, Django
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will use the function's name as the filter name.
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Writing custom template tags
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----------------------------
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**This section applies to the Django development version.**
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Tags are more complex than filters, because tags can do anything.
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A quick overview
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~~~~~~~~~~~~~~~~
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Above, this document explained that the template system works in a two-step
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process: compiling and rendering. To define a custom template tag, you specify
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how the compilation works and how the rendering works.
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When Django compiles a template, it splits the raw template text into
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''nodes''. Each node is an instance of ``django.core.template.Node`` and has
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a ``render()`` method. A compiled template is, simply, a list of ``Node``
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objects. When you call ``render()`` on a compiled template object, the template
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calls ``render()`` on each ``Node`` in its node list, with the given context.
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The results are all concatenated together to form the output of the template.
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Thus, to define a custom template tag, you specify how the raw template tag is
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converted into a ``Node`` (the compilation function), and what the node's
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``render()`` method does.
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Writing the compilation function
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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For each template tag the template parser encounters, it calls a Python
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function with the tag contents and the parser object itself. This function is
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responsible for returning a ``Node`` instance based on the contents of the tag.
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For example, let's write a template tag, ``{% current_time %}``, that displays
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the current date/time, formatted according to a parameter given in the tag, in
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`strftime syntax`_. It's a good idea to decide the tag syntax before anything
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else. In our case, let's say the tag should be used like this::
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<p>The time is {% current_time "%Y-%M-%d %I:%M %p" %}.</p>
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.. _`strftime syntax`: http://www.python.org/doc/current/lib/module-time.html#l2h-1941
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The parser for this function should grab the parameter and create a ``Node``
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object::
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from django.core import template
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def do_current_time(parser, token):
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try:
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# Splitting by None == splitting by spaces.
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tag_name, format_string = token.contents.split(None, 1)
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except ValueError:
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raise template.TemplateSyntaxError, "%r tag requires an argument" % token.contents[0]
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if not (format_string[0] == format_string[-1] and format_string[0] in ('"', "'")):
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raise template.TemplateSyntaxError, "%r tag's argument should be in quotes" % tag_name
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return CurrentTimeNode(format_string[1:-1])
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Notes:
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* ``parser`` is the template parser object. We don't need it in this
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example.
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* ``token.contents`` is a string of the raw contents of the tag. In our
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example, it's ``'current_time "%Y-%M-%d %I:%M %p"'``.
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* This function is responsible for raising
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``django.core.template.TemplateSyntaxError``, with helpful messages, for
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any syntax error.
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* The ``TemplateSyntaxError`` exceptions use the ``tag_name`` variable.
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Don't hard-code the tag's name in your error messages, because that
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couples the tag's name to your function. ``token.contents.split()[0]``
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will ''always'' be the name of your tag -- even when the tag has no
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arguments.
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* The function returns a ``CurrentTimeNode`` with everything the node needs
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to know about this tag. In this case, it just passes the argument --
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``"%Y-%M-%d %I:%M %p"``. The leading and trailing quotes from the
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template tag are removed in ``format_string[1:-1]``.
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* The parsing is very low-level. The Django developers have experimented
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with writing small frameworks on top of this parsing system, using
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techniques such as EBNF grammars, but those experiments made the template
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engine too slow. It's low-level because that's fastest.
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Writing the renderer
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~~~~~~~~~~~~~~~~~~~~
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The second step in writing custom tags is to define a ``Node`` subclass that
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has a ``render()`` method.
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Continuing the above example, we need to define ``CurrentTimeNode``::
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from django.core import template
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import datetime
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class CurrentTimeNode(template.Node):
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def __init__(self, format_string):
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self.format_string = format_string
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def render(self, context):
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return datetime.datetime.now().strftime(self.format_string)
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Notes:
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* ``__init__()`` gets the ``format_string`` from ``do_current_time()``.
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Always pass any options/parameters/arguments to a ``Node`` via its
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``__init__()``.
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* The ``render()`` method is where the work actually happens.
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* ``render()`` should never raise ``TemplateSyntaxError`` or any other
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exception. It should fail silently, just as template filters should.
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Ultimately, this decoupling of compilation and rendering results in an
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efficient template system, because a template can render multiple context
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without having to be parsed multiple times.
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Registering the tag
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~~~~~~~~~~~~~~~~~~~
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Finally, register the tag with your module's ``Library`` instance, as explained
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in "Writing custom template filters" above. Example::
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register.tag('current_time', do_current_time)
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The ``tag()`` method takes two arguments:
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1. The name of the template tag -- a string. If this is left out, the
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name of the compilation function will be used.
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2. The compilation function -- a Python function (not the name of the
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function as a string).
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As with filter registration, it is also possible to use this as a decorator, in
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Python 2.4 and above::
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@register.tag(name="current_time")
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def do_current_time(parser, token):
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# ...
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@register.tag
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def shout(parser, token):
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# ...
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If you leave off the ``name`` argument, as in the second example above, Django
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will use the function's name as the tag name.
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Setting a variable in the context
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The above example simply output a value. Generally, it's more flexible if your
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template tags set template variables instead of outputting values. That way,
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template authors can reuse the values that your template tags create.
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To set a variable in the context, just use dictionary assignment on the context
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object in the ``render()`` method. Here's an updated version of
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``CurrentTimeNode`` that sets a template variable ``current_time`` instead of
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outputting it::
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class CurrentTimeNode2(template.Node):
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def __init__(self, format_string):
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self.format_string = format_string
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def render(self, context):
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context['current_time'] = datetime.datetime.now().strftime(self.format_string)
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return ''
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Note that ``render()`` returns the empty string. ``render()`` should always
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return string output. If all the template tag does is set a variable,
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``render()`` should return the empty string.
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Here's how you'd use this new version of the tag::
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{% current_time "%Y-%M-%d %I:%M %p" %}<p>The time is {{ current_time }}.</p>
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But, there's a problem with ``CurrentTimeNode2``: The variable name
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``current_time`` is hard-coded. This means you'll need to make sure your
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template doesn't use ``{{ current_time }}`` anywhere else, because the
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``{% current_time %}`` will blindly overwrite that variable's value. A cleaner
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solution is to make the template tag specify the name of the output variable,
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like so::
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{% get_current_time "%Y-%M-%d %I:%M %p" as my_current_time %}
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<p>The current time is {{ my_current_time }}.</p>
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To do that, you'll need to refactor both the compilation function and ``Node``
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class, like so::
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class CurrentTimeNode3(template.Node):
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def __init__(self, format_string, var_name):
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self.format_string = format_string
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self.var_name = var_name
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def render(self, context):
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context[self.var_name] = datetime.datetime.now().strftime(self.format_string)
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return ''
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import re
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def do_current_time(parser, token):
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# This version uses a regular expression to parse tag contents.
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try:
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# Splitting by None == splitting by spaces.
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tag_name, arg = token.contents.split(None, 1)
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except ValueError:
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raise template.TemplateSyntaxError, "%r tag requires arguments" % token.contents[0]
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m = re.search(r'(.*?) as (\w+)', arg)
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if not m:
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raise template.TemplateSyntaxError, "%r tag had invalid arguments" % tag_name
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format_string, var_name = m.groups()
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if not (format_string[0] == format_string[-1] and format_string[0] in ('"', "'")):
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raise template.TemplateSyntaxError, "%r tag's argument should be in quotes" % tag_name
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return CurrentTimeNode3(format_string[1:-1], var_name)
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The difference here is that ``do_current_time()`` grabs the format string and
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the variable name, passing both to ``CurrentTimeNode3``.
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Parsing until another block tag
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Template tags can work in tandem. For instance, the standard ``{% comment %}``
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tag hides everything until ``{% endcomment %}``. To create a template tag such
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as this, use ``parser.parse()`` in your compilation function.
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Here's how the standard ``{% comment %}`` tag is implemented::
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def do_comment(parser, token):
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nodelist = parser.parse(('endcomment',))
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parser.delete_first_token()
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return CommentNode()
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class CommentNode(template.Node):
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def render(self, context):
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return ''
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``parser.parse()`` takes a tuple of names of block tags ''to parse until''. It
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returns an instance of ``django.core.template.NodeList``, which is a list of
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all ``Node`` objects that the parser encountered ''before'' it encountered
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any of the tags named in the tuple.
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In ``"nodelist = parser.parse(('endcomment',))"`` in the above example,
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``nodelist`` is a list of all nodes between the ``{% comment %}`` and
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``{% endcomment %}``, not counting ``{% comment %}`` and ``{% endcomment %}``
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themselves.
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After ``parser.parse()`` is called, the parser hasn't yet "consumed" the
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``{% endcomment %}`` tag, so the code needs to explicitly call
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``parser.delete_first_token()``.
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``CommentNode.render()`` simply returns an empty string. Anything between
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``{% comment %}`` and ``{% endcomment %}`` is ignored.
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Parsing until another block tag, and saving contents
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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In the previous example, ``do_comment()`` discarded everything between
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``{% comment %}`` and ``{% endcomment %}``. Instead of doing that, it's
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possible to do something with the code between block tags.
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For example, here's a custom template tag, ``{% upper %}``, that capitalizes
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everything between itself and ``{% endupper %}``.
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Usage::
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{% upper %}This will appear in uppercase, {{ your_name }}.{% endupper %}
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As in the previous example, we'll use ``parser.parse()``. But this time, we
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pass the resulting ``nodelist`` to the ``Node``::
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def do_upper(parser, token):
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nodelist = parser.parse(('endupper',))
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parser.delete_first_token()
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return UpperNode(nodelist)
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class UpperNode(template.Node):
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def __init__(self, nodelist):
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self.nodelist = nodelist
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def render(self, context):
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output = self.nodelist.render(context)
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return output.upper()
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The only new concept here is the ``self.nodelist.render(context)`` in
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``UpperNode.render()``.
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For more examples of complex rendering, see the source code for ``{% if %}``,
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``{% for %}``, ``{% ifequal %}`` and ``{% ifchanged %}``. They live in
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``django/core/template/defaulttags.py``.
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