docs/extensions.rst - platform/external/python/jinja - Gitiles

 .. _jinja-extensions:

 Extensions
 ==========

 Jinja supports extensions that can add extra filters, tests, globals or even
 extend the parser.  The main motivation of extensions is to move often used
 code into a reusable class like adding support for internationalization.


 Adding Extensions
 -----------------

 Extensions are added to the Jinja environment at creation time.  Once the
 environment is created additional extensions cannot be added.  To add an
 extension pass a list of extension classes or import paths to the
 ``extensions`` parameter of the :class:`~jinja2.Environment` constructor.  The following
 example creates a Jinja environment with the i18n extension loaded::

     jinja_env = Environment(extensions=['jinja2.ext.i18n'])


 .. _i18n-extension:

 i18n Extension
 --------------

 **Import name:** ``jinja2.ext.i18n``

 The i18n extension can be used in combination with `gettext`_ or
 `Babel`_.  When it's enabled, Jinja provides a ``trans`` statement that
 marks a block as translatable and calls ``gettext``.

 After enabling, an application has to provide ``gettext`` and
 ``ngettext`` functions, either globally or when rendering. A ``_()``
 function is added as an alias to the ``gettext`` function.

 Environment Methods
 ~~~~~~~~~~~~~~~~~~~

 After enabling the extension, the environment provides the following
 additional methods:

 .. method:: jinja2.Environment.install_gettext_translations(translations, newstyle=False)

     Installs a translation globally for the environment. The
     ``translations`` object must implement ``gettext`` and ``ngettext``.
     :class:`gettext.NullTranslations`, :class:`gettext.GNUTranslations`,
     and `Babel`_\s ``Translations`` are supported.

     .. versionchanged:: 2.5 Added new-style gettext support.

 .. method:: jinja2.Environment.install_null_translations(newstyle=False)

     Install no-op gettext functions. This is useful if you want to
     prepare the application for internationalization but don't want to
     implement the full system yet.

     .. versionchanged:: 2.5 Added new-style gettext support.

 .. method:: jinja2.Environment.install_gettext_callables(gettext, ngettext, newstyle=False)

     Install the given ``gettext`` and ``ngettext`` callables into the
     environment. They should behave exactly like
     :func:`gettext.gettext` and :func:`gettext.ngettext`.

     If ``newstyle`` is activated, the callables are wrapped to work like
     newstyle callables.  See :ref:`newstyle-gettext` for more information.

     .. versionadded:: 2.5 Added new-style gettext support.

 .. method:: jinja2.Environment.uninstall_gettext_translations()

     Uninstall the environment's globally installed translation.

 .. method:: jinja2.Environment.extract_translations(source)

     Extract localizable strings from the given template node or source.

     For every string found this function yields a ``(lineno, function,
     message)`` tuple, where:

     -   ``lineno`` is the number of the line on which the string was
         found.
     -   ``function`` is the name of the ``gettext`` function used (if
         the string was extracted from embedded Python code).
     -   ``message`` is the string itself, or a tuple of strings for
         functions with multiple arguments.

     If `Babel`_ is installed, see :ref:`babel-integration` to extract
     the strings.

 For a web application that is available in multiple languages but gives
 all the users the same language (for example, multilingual forum
 software installed for a French community), the translation may be
 installed when the environment is created.

 .. code-block:: python

     translations = get_gettext_translations()
     env = Environment(extensions=["jinja2.ext.i18n"])
     env.install_gettext_translations(translations)

 The ``get_gettext_translations`` function would return the translator
 for the current configuration, for example by using ``gettext.find``.

 The usage of the ``i18n`` extension for template designers is covered in
 :ref:`the template documentation <i18n-in-templates>`.

 .. _gettext: https://docs.python.org/3/library/gettext.html
 .. _Babel: http://babel.pocoo.org/


 Whitespace Trimming
 ~~~~~~~~~~~~~~~~~~~

 .. versionadded:: 2.10

 Within ``{% trans %}`` blocks, it can be useful to trim line breaks and
 whitespace so that the block of text looks like a simple string with
 single spaces in the translation file.

 Linebreaks and surrounding whitespace can be automatically trimmed by
 enabling the ``ext.i18n.trimmed`` :ref:`policy <ext-i18n-trimmed>`.


 .. _newstyle-gettext:

 New Style Gettext
 ~~~~~~~~~~~~~~~~~

 .. versionadded:: 2.5

 New style gettext calls are less to type, less error prone, and support
 autoescaping better.

 You can use "new style" gettext calls by setting
 ``env.newstyle_gettext = True`` or passing ``newstyle=True`` to
 ``env.install_translations``. They are fully supported by the Babel
 extraction tool, but might not work as expected with other extraction
 tools.

 With standard ``gettext`` calls, string formatting is a separate step
 done with the ``|format`` filter. This requires duplicating work for
 ``ngettext`` calls.

 .. sourcecode:: jinja

     {{ gettext("Hello, World!") }}
     {{ gettext("Hello, %(name)s!")|format(name=name) }}
     {{ ngettext(
            "%(num)d apple", "%(num)d apples", apples|count
        )|format(num=apples|count) }}

 New style ``gettext`` make formatting part of the call, and behind the
 scenes enforce more consistency.

 .. sourcecode:: jinja

     {{ gettext("Hello, World!") }}
     {{ gettext("Hello, %(name)s!", name=name) }}
     {{ ngettext("%(num)d apple", "%(num)d apples", apples|count) }}

 The advantages of newstyle gettext are:

 -   There's no separate formatting step, you don't have to remember to
     use the ``|format`` filter.
 -   Only named placeholders are allowed. This solves a common problem
     translators face because positional placeholders can't switch
     positions meaningfully. Named placeholders always carry semantic
     information about what value goes where.
 -   String formatting is used even if no placeholders are used, which
     makes all strings use a consistent format. Remember to escape any
     raw percent signs as ``%%``, such as ``100%%``.
 -   The translated string is marked safe, formatting performs escaping
     as needed. Mark a parameter as ``|safe`` if it has already been
     escaped.


 Expression Statement
 --------------------

 **Import name:** ``jinja2.ext.do``

 The "do" aka expression-statement extension adds a simple ``do`` tag to the
 template engine that works like a variable expression but ignores the
 return value.

 .. _loopcontrols-extension:

 Loop Controls
 -------------

 **Import name:** ``jinja2.ext.loopcontrols``

 This extension adds support for ``break`` and ``continue`` in loops.  After
 enabling, Jinja provides those two keywords which work exactly like in
 Python.

 .. _with-extension:

 With Statement
 --------------

 **Import name:** ``jinja2.ext.with_``

 .. versionchanged:: 2.9

     This extension is now built-in and no longer does anything.

 .. _autoescape-extension:

 Autoescape Extension
 --------------------

 **Import name:** ``jinja2.ext.autoescape``

 .. versionchanged:: 2.9

     This extension was removed and is now built-in. Enabling the
     extension no longer does anything.


 .. _debug-extension:

 Debug Extension
 ---------------

 **Import name:** ``jinja2.ext.debug``

 Adds a ``{% debug %}`` tag to dump the current context as well as the
 available filters and tests. This is useful to see what's available to
 use in the template without setting up a debugger.


 .. _writing-extensions:

 Writing Extensions
 ------------------

 .. module:: jinja2.ext

 By writing extensions you can add custom tags to Jinja.  This is a non-trivial
 task and usually not needed as the default tags and expressions cover all
 common use cases.  The i18n extension is a good example of why extensions are
 useful. Another one would be fragment caching.

 When writing extensions you have to keep in mind that you are working with the
 Jinja template compiler which does not validate the node tree you are passing
 to it.  If the AST is malformed you will get all kinds of compiler or runtime
 errors that are horrible to debug.  Always make sure you are using the nodes
 you create correctly.  The API documentation below shows which nodes exist and
 how to use them.


 Example Extensions
 ------------------

 Cache
 ~~~~~

 The following example implements a ``cache`` tag for Jinja by using the
 `cachelib`_ library:

 .. literalinclude:: examples/cache_extension.py
     :language: python

 And here is how you use it in an environment::

     from jinja2 import Environment
     from cachelib import SimpleCache

     env = Environment(extensions=[FragmentCacheExtension])
     env.fragment_cache = SimpleCache()

 Inside the template it's then possible to mark blocks as cacheable.  The
 following example caches a sidebar for 300 seconds:

 .. sourcecode:: html+jinja

     {% cache 'sidebar', 300 %}
     <div class="sidebar">
         ...
     </div>
     {% endcache %}

 .. _cachelib: https://github.com/pallets/cachelib


 Inline ``gettext``
 ~~~~~~~~~~~~~~~~~~

 The following example demonstrates using :meth:`Extension.filter_stream`
 to parse calls to the ``_()`` gettext function inline with static data
 without needing Jinja blocks.

 .. code-block:: html

         <h1>_(Welcome)</h1>
         <p>_(This is a paragraph)</p>

 It requires the i18n extension to be loaded and configured.

 .. literalinclude:: examples/inline_gettext_extension.py
     :language: python


 Extension API
 -------------

 Extension
 ~~~~~~~~~

 Extensions always have to extend the :class:`jinja2.ext.Extension` class:

 .. autoclass:: Extension
     :members: preprocess, filter_stream, parse, attr, call_method

     .. attribute:: identifier

         The identifier of the extension.  This is always the true import name
         of the extension class and must not be changed.

     .. attribute:: tags

         If the extension implements custom tags this is a set of tag names
         the extension is listening for.


 Parser
 ~~~~~~

 The parser passed to :meth:`Extension.parse` provides ways to parse
 expressions of different types.  The following methods may be used by
 extensions:

 .. autoclass:: jinja2.parser.Parser
     :members: parse_expression, parse_tuple, parse_assign_target,
               parse_statements, free_identifier, fail

     .. attribute:: filename

         The filename of the template the parser processes.  This is **not**
         the load name of the template.  For the load name see :attr:`name`.
         For templates that were not loaded form the file system this is
         ``None``.

     .. attribute:: name

         The load name of the template.

     .. attribute:: stream

         The current :class:`~jinja2.lexer.TokenStream`

 .. autoclass:: jinja2.lexer.TokenStream
    :members: push, look, eos, skip, __next__, next_if, skip_if, expect

    .. attribute:: current

         The current :class:`~jinja2.lexer.Token`.

 .. autoclass:: jinja2.lexer.Token
     :members: test, test_any

     .. attribute:: lineno

         The line number of the token

     .. attribute:: type

         The type of the token.  This string is interned so you may compare
         it with arbitrary strings using the ``is`` operator.

     .. attribute:: value

         The value of the token.

 There is also a utility function in the lexer module that can count newline
 characters in strings:

 .. autofunction:: jinja2.lexer.count_newlines


 AST
 ~~~

 The AST (Abstract Syntax Tree) is used to represent a template after parsing.
 It's build of nodes that the compiler then converts into executable Python
 code objects.  Extensions that provide custom statements can return nodes to
 execute custom Python code.

 The list below describes all nodes that are currently available.  The AST may
 change between Jinja versions but will stay backwards compatible.

 For more information have a look at the repr of :meth:`jinja2.Environment.parse`.

 .. module:: jinja2.nodes

 .. jinja:nodes:: jinja2.nodes.Node

 .. autoexception:: Impossible
	.. _jinja-extensions:

	Extensions
	==========

	Jinja supports extensions that can add extra filters, tests, globals or even
	extend the parser. The main motivation of extensions is to move often used
	code into a reusable class like adding support for internationalization.


	Adding Extensions
	-----------------

	Extensions are added to the Jinja environment at creation time. Once the
	environment is created additional extensions cannot be added. To add an
	extension pass a list of extension classes or import paths to the
	``extensions`` parameter of the :class:`~jinja2.Environment` constructor. The following
	example creates a Jinja environment with the i18n extension loaded::

	jinja_env = Environment(extensions=['jinja2.ext.i18n'])


	.. _i18n-extension:

	i18n Extension
	--------------

	Import name: ``jinja2.ext.i18n``

	The i18n extension can be used in combination with `gettext`_ or
	`Babel`_. When it's enabled, Jinja provides a ``trans`` statement that
	marks a block as translatable and calls ``gettext``.

	After enabling, an application has to provide ``gettext`` and
	``ngettext`` functions, either globally or when rendering. A ``_()``
	function is added as an alias to the ``gettext`` function.

	Environment Methods
	~~~~~~~~~~~~~~~~~~~

	After enabling the extension, the environment provides the following
	additional methods:

	.. method:: jinja2.Environment.install_gettext_translations(translations, newstyle=False)

	Installs a translation globally for the environment. The
	``translations`` object must implement ``gettext`` and ``ngettext``.
	:class:`gettext.NullTranslations`, :class:`gettext.GNUTranslations`,
	and `Babel`_\s ``Translations`` are supported.

	.. versionchanged:: 2.5 Added new-style gettext support.

	.. method:: jinja2.Environment.install_null_translations(newstyle=False)

	Install no-op gettext functions. This is useful if you want to
	prepare the application for internationalization but don't want to
	implement the full system yet.

	.. versionchanged:: 2.5 Added new-style gettext support.

	.. method:: jinja2.Environment.install_gettext_callables(gettext, ngettext, newstyle=False)

	Install the given ``gettext`` and ``ngettext`` callables into the
	environment. They should behave exactly like
	:func:`gettext.gettext` and :func:`gettext.ngettext`.

	If ``newstyle`` is activated, the callables are wrapped to work like
	newstyle callables. See :ref:`newstyle-gettext` for more information.

	.. versionadded:: 2.5 Added new-style gettext support.

	.. method:: jinja2.Environment.uninstall_gettext_translations()

	Uninstall the environment's globally installed translation.

	.. method:: jinja2.Environment.extract_translations(source)

	Extract localizable strings from the given template node or source.

	For every string found this function yields a ``(lineno, function,
	message)`` tuple, where:

	- ``lineno`` is the number of the line on which the string was
	found.
	- ``function`` is the name of the ``gettext`` function used (if
	the string was extracted from embedded Python code).
	- ``message`` is the string itself, or a tuple of strings for
	functions with multiple arguments.

	If `Babel`_ is installed, see :ref:`babel-integration` to extract
	the strings.

	For a web application that is available in multiple languages but gives
	all the users the same language (for example, multilingual forum
	software installed for a French community), the translation may be
	installed when the environment is created.

	.. code-block:: python

	translations = get_gettext_translations()
	env = Environment(extensions=["jinja2.ext.i18n"])
	env.install_gettext_translations(translations)

	The ``get_gettext_translations`` function would return the translator
	for the current configuration, for example by using ``gettext.find``.

	The usage of the ``i18n`` extension for template designers is covered in
	:ref:`the template documentation <i18n-in-templates>`.

	.. _gettext: https://docs.python.org/3/library/gettext.html
	.. _Babel: http://babel.pocoo.org/


	Whitespace Trimming
	~~~~~~~~~~~~~~~~~~~

	.. versionadded:: 2.10

	Within ``{% trans %}`` blocks, it can be useful to trim line breaks and
	whitespace so that the block of text looks like a simple string with
	single spaces in the translation file.

	Linebreaks and surrounding whitespace can be automatically trimmed by
	enabling the ``ext.i18n.trimmed`` :ref:`policy <ext-i18n-trimmed>`.


	.. _newstyle-gettext:

	New Style Gettext
	~~~~~~~~~~~~~~~~~

	.. versionadded:: 2.5

	New style gettext calls are less to type, less error prone, and support
	autoescaping better.

	You can use "new style" gettext calls by setting
	``env.newstyle_gettext = True`` or passing ``newstyle=True`` to
	``env.install_translations``. They are fully supported by the Babel
	extraction tool, but might not work as expected with other extraction
	tools.

	With standard ``gettext`` calls, string formatting is a separate step
	done with the ``\|format`` filter. This requires duplicating work for
	``ngettext`` calls.

	.. sourcecode:: jinja

	{{ gettext("Hello, World!") }}
	{{ gettext("Hello, %(name)s!")\|format(name=name) }}
	{{ ngettext(
	"%(num)d apple", "%(num)d apples", apples\|count
	)\|format(num=apples\|count) }}

	New style ``gettext`` make formatting part of the call, and behind the
	scenes enforce more consistency.

	.. sourcecode:: jinja

	{{ gettext("Hello, World!") }}
	{{ gettext("Hello, %(name)s!", name=name) }}
	{{ ngettext("%(num)d apple", "%(num)d apples", apples\|count) }}

	The advantages of newstyle gettext are:

	- There's no separate formatting step, you don't have to remember to
	use the ``\|format`` filter.
	- Only named placeholders are allowed. This solves a common problem
	translators face because positional placeholders can't switch
	positions meaningfully. Named placeholders always carry semantic
	information about what value goes where.
	- String formatting is used even if no placeholders are used, which
	makes all strings use a consistent format. Remember to escape any
	raw percent signs as ``%%``, such as ``100%%``.
	- The translated string is marked safe, formatting performs escaping
	as needed. Mark a parameter as ``\|safe`` if it has already been
	escaped.


	Expression Statement
	--------------------

	Import name: ``jinja2.ext.do``

	The "do" aka expression-statement extension adds a simple ``do`` tag to the
	template engine that works like a variable expression but ignores the
	return value.

	.. _loopcontrols-extension:

	Loop Controls
	-------------

	Import name: ``jinja2.ext.loopcontrols``

	This extension adds support for ``break`` and ``continue`` in loops. After
	enabling, Jinja provides those two keywords which work exactly like in
	Python.

	.. _with-extension:

	With Statement
	--------------

	Import name: ``jinja2.ext.with_``

	.. versionchanged:: 2.9

	This extension is now built-in and no longer does anything.

	.. _autoescape-extension:

	Autoescape Extension
	--------------------

	Import name: ``jinja2.ext.autoescape``

	.. versionchanged:: 2.9

	This extension was removed and is now built-in. Enabling the
	extension no longer does anything.


	.. _debug-extension:

	Debug Extension
	---------------

	Import name: ``jinja2.ext.debug``

	Adds a ``{% debug %}`` tag to dump the current context as well as the
	available filters and tests. This is useful to see what's available to
	use in the template without setting up a debugger.


	.. _writing-extensions:

	Writing Extensions
	------------------

	.. module:: jinja2.ext

	By writing extensions you can add custom tags to Jinja. This is a non-trivial
	task and usually not needed as the default tags and expressions cover all
	common use cases. The i18n extension is a good example of why extensions are
	useful. Another one would be fragment caching.

	When writing extensions you have to keep in mind that you are working with the
	Jinja template compiler which does not validate the node tree you are passing
	to it. If the AST is malformed you will get all kinds of compiler or runtime
	errors that are horrible to debug. Always make sure you are using the nodes
	you create correctly. The API documentation below shows which nodes exist and
	how to use them.


	Example Extensions
	------------------

	Cache
	~~~~~

	The following example implements a ``cache`` tag for Jinja by using the
	`cachelib`_ library:

	.. literalinclude:: examples/cache_extension.py
	:language: python

	And here is how you use it in an environment::

	from jinja2 import Environment
	from cachelib import SimpleCache

	env = Environment(extensions=[FragmentCacheExtension])
	env.fragment_cache = SimpleCache()

	Inside the template it's then possible to mark blocks as cacheable. The
	following example caches a sidebar for 300 seconds:

	.. sourcecode:: html+jinja

	{% cache 'sidebar', 300 %}
	<div class="sidebar">
	...
	</div>
	{% endcache %}

	.. _cachelib: https://github.com/pallets/cachelib


	Inline ``gettext``
	~~~~~~~~~~~~~~~~~~

	The following example demonstrates using :meth:`Extension.filter_stream`
	to parse calls to the ``_()`` gettext function inline with static data
	without needing Jinja blocks.

	.. code-block:: html

	<h1>_(Welcome)</h1>
	<p>_(This is a paragraph)</p>

	It requires the i18n extension to be loaded and configured.

	.. literalinclude:: examples/inline_gettext_extension.py
	:language: python


	Extension API
	-------------

	Extension
	~~~~~~~~~

	Extensions always have to extend the :class:`jinja2.ext.Extension` class:

	.. autoclass:: Extension
	:members: preprocess, filter_stream, parse, attr, call_method

	.. attribute:: identifier

	The identifier of the extension. This is always the true import name
	of the extension class and must not be changed.

	.. attribute:: tags

	If the extension implements custom tags this is a set of tag names
	the extension is listening for.


	Parser
	~~~~~~

	The parser passed to :meth:`Extension.parse` provides ways to parse
	expressions of different types. The following methods may be used by
	extensions:

	.. autoclass:: jinja2.parser.Parser
	:members: parse_expression, parse_tuple, parse_assign_target,
	parse_statements, free_identifier, fail

	.. attribute:: filename

	The filename of the template the parser processes. This is not
	the load name of the template. For the load name see :attr:`name`.
	For templates that were not loaded form the file system this is
	``None``.

	.. attribute:: name

	The load name of the template.

	.. attribute:: stream

	The current :class:`~jinja2.lexer.TokenStream`

	.. autoclass:: jinja2.lexer.TokenStream
	:members: push, look, eos, skip, __next__, next_if, skip_if, expect

	.. attribute:: current

	The current :class:`~jinja2.lexer.Token`.

	.. autoclass:: jinja2.lexer.Token
	:members: test, test_any

	.. attribute:: lineno

	The line number of the token

	.. attribute:: type

	The type of the token. This string is interned so you may compare
	it with arbitrary strings using the ``is`` operator.

	.. attribute:: value

	The value of the token.

	There is also a utility function in the lexer module that can count newline
	characters in strings:

	.. autofunction:: jinja2.lexer.count_newlines


	AST
	~~~

	The AST (Abstract Syntax Tree) is used to represent a template after parsing.
	It's build of nodes that the compiler then converts into executable Python
	code objects. Extensions that provide custom statements can return nodes to
	execute custom Python code.

	The list below describes all nodes that are currently available. The AST may
	change between Jinja versions but will stay backwards compatible.

	For more information have a look at the repr of :meth:`jinja2.Environment.parse`.

	.. module:: jinja2.nodes

	.. jinja:nodes:: jinja2.nodes.Node

	.. autoexception:: Impossible