docs/api.rst - platform/external/python/jinja - Git at Google

 API
 ===

 .. module:: jinja2
     :synopsis: public Jinja2 API

 This document describes the API to Jinja2 and not the template language.  It
 will be most useful as reference to those implementing the template interface
 to the application and not those who are creating Jinja2 templates.

 Basics
 ------

 Jinja2 uses a central object called the template :class:`Environment`.
 Instances of this class are used to store the configuration, global objects
 and are used to load templates from the file system or other locations.
 Even if you are creating templates from string by using the constructor of
 :class:`Template` class, an environment is created automatically for you.

 Most applications will create one :class:`Environment` object on application
 initialization and use that to load templates.  In some cases it's however
 useful to have multiple environments side by side, if different configurations
 are in use.

 The simplest way to configure Jinja2 to load templates for your application
 looks roughly like this::

     from jinja2 import Environment, PackageLoader
     env = Environment(loader=PackageLoader('yourapplication', 'templates'))

 This will create a template environment with the default settings and a
 loader that looks up the templates in the `templates` folder inside the
 `yourapplication` python package.  Different loaders are available
 and you can also write your own if you want to load templates from a
 database or other resources.

 To load a template from this environment you just have to call the
 :meth:`get_template` method which then returns the loaded :class:`Template`::

     template = env.get_template('mytemplate.html')

 To render it with some variables, just call the :meth:`render` method::

     print template.render(the='variables', go='here')


 High Level API
 --------------

 .. autoclass:: jinja2.environment.Environment([options])
     :members: from_string, get_template, join_path, parse

     .. attribute:: shared

         If a template was created by using the :class:`Template` constructor
         an environment is created automatically.  These environments are
         created as shared environments which means that multiple templates
         may have the same anonymous environment.  For all shared environments
         this attribute is `True`, else `False`.

     .. attribute:: sandboxed

         If the environment is sandboxed this attribute is `True`.  For the
         sandbox mode have a look at the documentation for the
         :class:`~jinja2.sandbox.SandboxedEnvironment`.

     .. attribute:: filters

         A dict of filters for this environment.  As long as no template was
         loaded it's safe to add new filters or remove old.  For custom filters
         see :ref:`writing-filters`.

     .. attribute:: tests

         A dict of test functions for this environment.  As long as no
         template was loaded it's safe to modify this dict.  For custom tests
         see :ref:`writing-tests`.

     .. attribute:: globals

         A dict of global variables.  These variables are always available
         in a template and (if the optimizer is enabled) may not be
         overridden by templates.  As long as no template was loaded it's safe
         to modify this dict.  For more details see :ref:`global-namespace`.

     .. automethod:: overlay([options])


 .. autoclass:: jinja2.Template
     :members: make_module, module, new_context

     .. attribute:: globals

         The dict with the globals of that template.  It's unsafe to modify
         this dict as it may be shared with other templates or the environment
         that loaded the template.

     .. attribute:: name

         The loading name of the template.  If the template was loaded from a
         string this is `None`.

     .. automethod:: render([context])

     .. automethod:: generate([context])

     .. automethod:: stream([context])


 .. autoclass:: jinja2.environment.TemplateStream
     :members: disable_buffering, enable_buffering


 Undefined Types
 ---------------

 These classes can be used as undefined types.  The :class:`Environment`
 constructor takes an `undefined` parameter that can be one of those classes
 or a custom subclass of :class:`Undefined`.  Whenever the template engine is
 unable to look up a name or access an attribute one of those objects is
 created and returned.  Some operations on undefined values are then allowed,
 others fail.

 The closest to regular Python behavior is the `StrictUndefined` which
 disallows all operations beside testing if it's an undefined object.

 .. autoclass:: jinja2.runtime.Undefined

 .. autoclass:: jinja2.runtime.DebugUndefined

 .. autoclass:: jinja2.runtime.StrictUndefined


 The Context
 -----------

 .. autoclass:: jinja2.runtime.Context
     :members: resolve, get_exported, get_all

     .. attribute:: parent

         A dict of read only, global variables the template looks up.  These
         can either come from another :class:`Context`, from the
         :attr:`Environment.globals` or :attr:`Template.globals`.  It must not
         be altered.

     .. attribute:: vars

         The template local variables.  This list contains environment and
         context functions from the :attr:`parent` scope as well as local
         modifications and exported variables from the template.  The template
         will modify this dict during template evaluation but filters and
         context functions are not allowed to modify it.

     .. attribute:: environment

         The environment that loaded the template.

     .. attribute:: exported_vars

         This set contains all the names the template exports.  The values for
         the names are in the :attr:`vars` dict.  In order to get a copy of the
         exported variables as dict, :meth:`get_exported` can be used.

     .. attribute:: name

         The load name of the template owning this context.

     .. attribute:: blocks

         A dict with the current mapping of blocks in the template.  The keys
         in this dict are the names of the blocks, and the values a list of
         blocks registered.  The last item in each list is the current active
         block (latest in the inheritance chain).


 Loaders
 -------

 Loaders are responsible for loading templates from a resource such as the
 file system.  The environment will keep the compiled modules in memory like
 Python's `sys.modules`.  Unlike `sys.modules` however this cache is limited in
 size by default and templates are automatically reloaded.
 All loaders are subclasses of :class:`BaseLoader`.  If you want to create your

 own loader, subclass :class:`BaseLoader` and override `get_source`.

 .. autoclass:: jinja2.loaders.BaseLoader
     :members: get_source, load

 Here a list of the builtin loaders Jinja2 provides:

 .. autoclass:: jinja2.loaders.FileSystemLoader

 .. autoclass:: jinja2.loaders.PackageLoader

 .. autoclass:: jinja2.loaders.DictLoader

 .. autoclass:: jinja2.loaders.FunctionLoader

 .. autoclass:: jinja2.loaders.PrefixLoader

 .. autoclass:: jinja2.loaders.ChoiceLoader


 Utilities
 ---------

 These helper functions and classes are useful if you add custom filters or
 functions to a Jinja2 environment.

 .. autofunction:: jinja2.filters.environmentfilter

 .. autofunction:: jinja2.filters.contextfilter

 .. autofunction:: jinja2.utils.environmentfunction

 .. autofunction:: jinja2.utils.contextfunction

 .. function:: escape(s)

     Convert the characters &, <, >, and " in string s to HTML-safe sequences.
     Use this if you need to display text that might contain such characters
     in HTML.  This function will not escaped objects that do have an HTML
     representation such as already escaped data.

 .. autofunction:: jinja2.utils.clear_caches

 .. autoclass:: jinja2.utils.Markup


 Exceptions
 ----------

 .. autoclass:: jinja2.exceptions.TemplateError

 .. autoclass:: jinja2.exceptions.UndefinedError

 .. autoclass:: jinja2.exceptions.TemplateNotFound

 .. autoclass:: jinja2.exceptions.TemplateSyntaxError

 .. autoclass:: jinja2.exceptions.TemplateAssertionError


 .. _writing-filters:

 Custom Filters
 --------------

 Custom filters are just regular Python functions that take the left side of
 the filter as first argument and the the arguments passed to the filter as
 extra arguments or keyword arguments.

 For example in the filter ``{{ 42|myfilter(23) }}`` the function would be
 called with ``myfilter(42, 23)``.  Here for example a simple filter that can
 be applied to datetime objects to format them::

     def datetimeformat(value, format='%H:%M / %d-%m-%Y'):
         return value.strftime(format)

 You can register it on the template environment by updating the
 :attr:`~Environment.filters` dict on the environment::

     environment.filters['datetimeformat'] = datetimeformat

 Inside the template it can then be used as follows:

 .. sourcecode:: jinja

     written on: {{ article.pub_date|datetimeformat }}
     publication date: {{ article.pub_date|datetimeformat('%d-%m-%Y') }}

 Filters can also be passed the current template context or environment.  This
 is useful if a filters wants to return an undefined value or check the current
 :attr:`~Environment.autoescape` setting.  For this purpose two decorators
 exist: :func:`environmentfilter` and :func:`contextfilter`.

 Here a small example filter that breaks a text into HTML line breaks and
 paragraphs and marks the return value as safe HTML string if autoescaping is
 enabled::

     import re
     from jinja2 import environmentfilter, Markup, escape

     _paragraph_re = re.compile(r'(?:\r\n|\r|\n){2,}')

     @environmentfilter
     def nl2br(environment, value):
         result = u'\n\n'.join(u'<p>%s</p>' % p.replace('\n', '<br>\n')
                               for p in _paragraph_re.split(escape(value)))
         if environment.autoescape:
             result = Markup(result)
         return result

 Context filters work the same just that the first argument is the current
 active :class:`Context` rather then the environment.


 .. _writing-tests:

 Custom Tests
 ------------

 Tests work like filters just that there is no way for a filter to get access
 to the environment or context and that they can't be chained.  The return
 value of a filter should be `True` or `False`.  The purpose of a filter is to
 give the template designers the possibility to perform type and conformability
 checks.

 Here a simple filter that checks if a variable is a prime number::

     import math

     def is_prime(n):
         if n == 2:
             return True
         for i in xrange(2, int(math.ceil(math.sqrt(n))) + 1):
             if n % i == 0:
                 return False
         return True


 You can register it on the template environment by updating the
 :attr:`~Environment.tests` dict on the environment::

     environment.tests['prime'] = is_prime

 A template designer can then use the test like this:

 .. sourcecode:: jinja

     {% if 42 is prime %}
         42 is a prime number
     {% else %}
         42 is not a prime number
     {% endif %}


 .. _global-namespace:

 The Global Namespace
 --------------------

 Variables stored in the :attr:`Environment.globals` or :attr:`Template.globals`
 dicts are special as they are available for imported templates too and will be
 used by the optimizer in future releases to evaluates parts of the template at
 compile time.  This is the place where you can put variables and functions
 that should be available all the time.
	API
	===

	.. module:: jinja2
	:synopsis: public Jinja2 API

	This document describes the API to Jinja2 and not the template language. It
	will be most useful as reference to those implementing the template interface
	to the application and not those who are creating Jinja2 templates.

	Basics
	------

	Jinja2 uses a central object called the template :class:`Environment`.
	Instances of this class are used to store the configuration, global objects
	and are used to load templates from the file system or other locations.
	Even if you are creating templates from string by using the constructor of
	:class:`Template` class, an environment is created automatically for you.

	Most applications will create one :class:`Environment` object on application
	initialization and use that to load templates. In some cases it's however
	useful to have multiple environments side by side, if different configurations
	are in use.

	The simplest way to configure Jinja2 to load templates for your application
	looks roughly like this::

	from jinja2 import Environment, PackageLoader
	env = Environment(loader=PackageLoader('yourapplication', 'templates'))

	This will create a template environment with the default settings and a
	loader that looks up the templates in the `templates` folder inside the
	`yourapplication` python package. Different loaders are available
	and you can also write your own if you want to load templates from a
	database or other resources.

	To load a template from this environment you just have to call the
	:meth:`get_template` method which then returns the loaded :class:`Template`::

	template = env.get_template('mytemplate.html')

	To render it with some variables, just call the :meth:`render` method::

	print template.render(the='variables', go='here')


	High Level API
	--------------

	.. autoclass:: jinja2.environment.Environment([options])
	:members: from_string, get_template, join_path, parse

	.. attribute:: shared

	If a template was created by using the :class:`Template` constructor
	an environment is created automatically. These environments are
	created as shared environments which means that multiple templates
	may have the same anonymous environment. For all shared environments
	this attribute is `True`, else `False`.

	.. attribute:: sandboxed

	If the environment is sandboxed this attribute is `True`. For the
	sandbox mode have a look at the documentation for the
	:class:`~jinja2.sandbox.SandboxedEnvironment`.

	.. attribute:: filters

	A dict of filters for this environment. As long as no template was
	loaded it's safe to add new filters or remove old. For custom filters
	see :ref:`writing-filters`.

	.. attribute:: tests

	A dict of test functions for this environment. As long as no
	template was loaded it's safe to modify this dict. For custom tests
	see :ref:`writing-tests`.

	.. attribute:: globals

	A dict of global variables. These variables are always available
	in a template and (if the optimizer is enabled) may not be
	overridden by templates. As long as no template was loaded it's safe
	to modify this dict. For more details see :ref:`global-namespace`.

	.. automethod:: overlay([options])


	.. autoclass:: jinja2.Template
	:members: make_module, module, new_context

	.. attribute:: globals

	The dict with the globals of that template. It's unsafe to modify
	this dict as it may be shared with other templates or the environment
	that loaded the template.

	.. attribute:: name

	The loading name of the template. If the template was loaded from a
	string this is `None`.

	.. automethod:: render([context])

	.. automethod:: generate([context])

	.. automethod:: stream([context])


	.. autoclass:: jinja2.environment.TemplateStream
	:members: disable_buffering, enable_buffering


	Undefined Types
	---------------

	These classes can be used as undefined types. The :class:`Environment`
	constructor takes an `undefined` parameter that can be one of those classes
	or a custom subclass of :class:`Undefined`. Whenever the template engine is
	unable to look up a name or access an attribute one of those objects is
	created and returned. Some operations on undefined values are then allowed,
	others fail.

	The closest to regular Python behavior is the `StrictUndefined` which
	disallows all operations beside testing if it's an undefined object.

	.. autoclass:: jinja2.runtime.Undefined

	.. autoclass:: jinja2.runtime.DebugUndefined

	.. autoclass:: jinja2.runtime.StrictUndefined


	The Context
	-----------

	.. autoclass:: jinja2.runtime.Context
	:members: resolve, get_exported, get_all

	.. attribute:: parent

	A dict of read only, global variables the template looks up. These
	can either come from another :class:`Context`, from the
	:attr:`Environment.globals` or :attr:`Template.globals`. It must not
	be altered.

	.. attribute:: vars

	The template local variables. This list contains environment and
	context functions from the :attr:`parent` scope as well as local
	modifications and exported variables from the template. The template
	will modify this dict during template evaluation but filters and
	context functions are not allowed to modify it.

	.. attribute:: environment

	The environment that loaded the template.

	.. attribute:: exported_vars

	This set contains all the names the template exports. The values for
	the names are in the :attr:`vars` dict. In order to get a copy of the
	exported variables as dict, :meth:`get_exported` can be used.

	.. attribute:: name

	The load name of the template owning this context.

	.. attribute:: blocks

	A dict with the current mapping of blocks in the template. The keys
	in this dict are the names of the blocks, and the values a list of
	blocks registered. The last item in each list is the current active
	block (latest in the inheritance chain).


	Loaders
	-------

	Loaders are responsible for loading templates from a resource such as the
	file system. The environment will keep the compiled modules in memory like
	Python's `sys.modules`. Unlike `sys.modules` however this cache is limited in
	size by default and templates are automatically reloaded.
	All loaders are subclasses of :class:`BaseLoader`. If you want to create your

	own loader, subclass :class:`BaseLoader` and override `get_source`.

	.. autoclass:: jinja2.loaders.BaseLoader
	:members: get_source, load

	Here a list of the builtin loaders Jinja2 provides:

	.. autoclass:: jinja2.loaders.FileSystemLoader

	.. autoclass:: jinja2.loaders.PackageLoader

	.. autoclass:: jinja2.loaders.DictLoader

	.. autoclass:: jinja2.loaders.FunctionLoader

	.. autoclass:: jinja2.loaders.PrefixLoader

	.. autoclass:: jinja2.loaders.ChoiceLoader


	Utilities
	---------

	These helper functions and classes are useful if you add custom filters or
	functions to a Jinja2 environment.

	.. autofunction:: jinja2.filters.environmentfilter

	.. autofunction:: jinja2.filters.contextfilter

	.. autofunction:: jinja2.utils.environmentfunction

	.. autofunction:: jinja2.utils.contextfunction

	.. function:: escape(s)

	Convert the characters &, <, >, and " in string s to HTML-safe sequences.
	Use this if you need to display text that might contain such characters
	in HTML. This function will not escaped objects that do have an HTML
	representation such as already escaped data.

	.. autofunction:: jinja2.utils.clear_caches

	.. autoclass:: jinja2.utils.Markup


	Exceptions
	----------

	.. autoclass:: jinja2.exceptions.TemplateError

	.. autoclass:: jinja2.exceptions.UndefinedError

	.. autoclass:: jinja2.exceptions.TemplateNotFound

	.. autoclass:: jinja2.exceptions.TemplateSyntaxError

	.. autoclass:: jinja2.exceptions.TemplateAssertionError


	.. _writing-filters:

	Custom Filters
	--------------

	Custom filters are just regular Python functions that take the left side of
	the filter as first argument and the the arguments passed to the filter as
	extra arguments or keyword arguments.

	For example in the filter ``{{ 42\|myfilter(23) }}`` the function would be
	called with ``myfilter(42, 23)``. Here for example a simple filter that can
	be applied to datetime objects to format them::

	def datetimeformat(value, format='%H:%M / %d-%m-%Y'):
	return value.strftime(format)

	You can register it on the template environment by updating the
	:attr:`~Environment.filters` dict on the environment::

	environment.filters['datetimeformat'] = datetimeformat

	Inside the template it can then be used as follows:

	.. sourcecode:: jinja

	written on: {{ article.pub_date\|datetimeformat }}
	publication date: {{ article.pub_date\|datetimeformat('%d-%m-%Y') }}

	Filters can also be passed the current template context or environment. This
	is useful if a filters wants to return an undefined value or check the current
	:attr:`~Environment.autoescape` setting. For this purpose two decorators
	exist: :func:`environmentfilter` and :func:`contextfilter`.

	Here a small example filter that breaks a text into HTML line breaks and
	paragraphs and marks the return value as safe HTML string if autoescaping is
	enabled::

	import re
	from jinja2 import environmentfilter, Markup, escape

	_paragraph_re = re.compile(r'(?:\r\n\|\r\|\n){2,}')

	@environmentfilter
	def nl2br(environment, value):
	result = u'\n\n'.join(u'<p>%s</p>' % p.replace('\n', '<br>\n')
	for p in _paragraph_re.split(escape(value)))
	if environment.autoescape:
	result = Markup(result)
	return result

	Context filters work the same just that the first argument is the current
	active :class:`Context` rather then the environment.


	.. _writing-tests:

	Custom Tests
	------------

	Tests work like filters just that there is no way for a filter to get access
	to the environment or context and that they can't be chained. The return
	value of a filter should be `True` or `False`. The purpose of a filter is to
	give the template designers the possibility to perform type and conformability
	checks.

	Here a simple filter that checks if a variable is a prime number::

	import math

	def is_prime(n):
	if n == 2:
	return True
	for i in xrange(2, int(math.ceil(math.sqrt(n))) + 1):
	if n % i == 0:
	return False
	return True


	You can register it on the template environment by updating the
	:attr:`~Environment.tests` dict on the environment::

	environment.tests['prime'] = is_prime

	A template designer can then use the test like this:

	.. sourcecode:: jinja

	{% if 42 is prime %}
	42 is a prime number
	{% else %}
	42 is not a prime number
	{% endif %}


	.. _global-namespace:

	The Global Namespace
	--------------------

	Variables stored in the :attr:`Environment.globals` or :attr:`Template.globals`
	dicts are special as they are available for imported templates too and will be
	used by the optimizer in future releases to evaluates parts of the template at
	compile time. This is the place where you can put variables and functions
	that should be available all the time.