Renderers
Before a TemplateResponse instance can be returned to the client, it must be rendered. The rendering process takes the intermediate representation of template and context, and turns it into the final byte stream that can be served to the client.
REST framework includes a number of built in Renderer classes, that allow you to return responses with various media types. There is also support for defining your own custom renderers, which gives you the flexibility to design your own media types.
How the renderer is determined
The set of valid renderers for a view is always defined as a list of classes. When a view is entered REST framework will perform content negotiation on the incoming request, and determine the most appropriate renderer to satisfy the request.
The basic process of content negotiation involves examining the request's Accept
header, to determine which media types it expects in the response. Optionally, format suffixes on the URL may be used to explicitly request a particular representation. For example the URL http://example.com/api/users_count.json
might be an endpoint that always returns JSON data.
For more information see the documentation on content negotiation.
Setting the renderers
The default set of renderers may be set globally, using the DEFAULT_RENDERER_CLASSES
setting. For example, the following settings would use YAML
as the main media type and also include the self describing API.
REST_FRAMEWORK = {
'DEFAULT_RENDERER_CLASSES': (
'rest_framework.renderers.YAMLRenderer',
'rest_framework.renderers.BrowsableAPIRenderer',
)
}
You can also set the renderers used for an individual view, or viewset,
using the APIView
class based views.
from django.contrib.auth.models import User
from rest_framework.renderers import JSONRenderer, YAMLRenderer
from rest_framework.response import Response
from rest_framework.views import APIView
class UserCountView(APIView):
"""
A view that returns the count of active users, in JSON or YAML.
"""
renderer_classes = (JSONRenderer, YAMLRenderer)
def get(self, request, format=None):
user_count = User.objects.filter(active=True).count()
content = {'user_count': user_count}
return Response(content)
Or, if you're using the @api_view
decorator with function based views.
@api_view(['GET'])
@renderer_classes((JSONRenderer, JSONPRenderer))
def user_count_view(request, format=None):
"""
A view that returns the count of active users, in JSON or JSONp.
"""
user_count = User.objects.filter(active=True).count()
content = {'user_count': user_count}
return Response(content)
Ordering of renderer classes
It's important when specifying the renderer classes for your API to think about what priority you want to assign to each media type. If a client underspecifies the representations it can accept, such as sending an Accept: */*
header, or not including an Accept
header at all, then REST framework will select the first renderer in the list to use for the response.
For example if your API serves JSON responses and the HTML browsable API, you might want to make JSONRenderer
your default renderer, in order to send JSON
responses to clients that do not specify an Accept
header.
If your API includes views that can serve both regular webpages and API responses depending on the request, then you might consider making TemplateHTMLRenderer
your default renderer, in order to play nicely with older browsers that send broken accept headers.
API Reference
JSONRenderer
Renders the request data into JSON
, using utf-8 encoding.
Note that non-ascii characters will be rendered using JSON's \uXXXX
character escape. For example:
{"unicode black star": "\u2605"}
The client may additionally include an 'indent'
media type parameter, in which case the returned JSON
will be indented. For example Accept: application/json; indent=4
.
{
"unicode black star": "\u2605"
}
.media_type: application/json
.format: '.json'
.charset: None
UnicodeJSONRenderer
Renders the request data into JSON
, using utf-8 encoding.
Note that non-ascii characters will not be character escaped. For example:
{"unicode black star": "★"}
The client may additionally include an 'indent'
media type parameter, in which case the returned JSON
will be indented. For example Accept: application/json; indent=4
.
{
"unicode black star": "★"
}
Both the JSONRenderer
and UnicodeJSONRenderer
styles conform to RFC 4627, and are syntactically valid JSON.
.media_type: application/json
.format: '.json'
.charset: None
JSONPRenderer
Renders the request data into JSONP
. The JSONP
media type provides a mechanism of allowing cross-domain AJAX requests, by wrapping a JSON
response in a javascript callback.
The javascript callback function must be set by the client including a callback
URL query parameter. For example http://example.com/api/users?callback=jsonpCallback
. If the callback function is not explicitly set by the client it will default to 'callback'
.
Warning: If you require cross-domain AJAX requests, you should almost certainly be using the more modern approach of CORS as an alternative to JSONP
. See the CORS documentation for more details.
The jsonp
approach is essentially a browser hack, and is only appropriate for globally readable API endpoints, where GET
requests are unauthenticated and do not require any user permissions.
.media_type: application/javascript
.format: '.jsonp'
.charset: utf-8
YAMLRenderer
Renders the request data into YAML
.
Requires the pyyaml
package to be installed.
.media_type: application/yaml
.format: '.yaml'
.charset: utf-8
XMLRenderer
Renders REST framework's default style of XML
response content.
Note that the XML
markup language is used typically used as the base language for more strictly defined domain-specific languages, such as RSS
, Atom
, and XHTML
.
If you are considering using XML
for your API, you may want to consider implementing a custom renderer and parser for your specific requirements, and using an existing domain-specific media-type, or creating your own custom XML-based media-type.
.media_type: application/xml
.format: '.xml'
.charset: utf-8
TemplateHTMLRenderer
Renders data to HTML, using Django's standard template rendering.
Unlike other renderers, the data passed to the Response
does not need to be serialized. Also, unlike other renderers, you may want to include a template_name
argument when creating the Response
.
The TemplateHTMLRenderer will create a RequestContext
, using the response.data
as the context dict, and determine a template name to use to render the context.
The template name is determined by (in order of preference):
- An explicit
template_name
argument passed to the response. - An explicit
.template_name
attribute set on this class. - The return result of calling
view.get_template_names()
.
An example of a view that uses TemplateHTMLRenderer
:
class UserDetail(generics.RetrieveAPIView):
"""
A view that returns a templated HTML representations of a given user.
"""
queryset = User.objects.all()
renderer_classes = (TemplateHTMLRenderer,)
def get(self, request, *args, **kwargs):
self.object = self.get_object()
return Response({'user': self.object}, template_name='user_detail.html')
You can use TemplateHTMLRenderer
either to return regular HTML pages using REST framework, or to return both HTML and API responses from a single endpoint.
If you're building websites that use TemplateHTMLRenderer
along with other renderer classes, you should consider listing TemplateHTMLRenderer
as the first class in the renderer_classes
list, so that it will be prioritised first even for browsers that send poorly formed ACCEPT:
headers.
.media_type: text/html
.format: '.html'
.charset: utf-8
See also: StaticHTMLRenderer
StaticHTMLRenderer
A simple renderer that simply returns pre-rendered HTML. Unlike other renderers, the data passed to the response object should be a string representing the content to be returned.
An example of a view that uses TemplateHTMLRenderer
:
@api_view(('GET',))
@renderer_classes((StaticHTMLRenderer,))
def simple_html_view(request):
data = '<html><body><h1>Hello, world</h1></body></html>'
return Response(data)
You can use TemplateHTMLRenderer
either to return regular HTML pages using REST framework, or to return both HTML and API responses from a single endpoint.
.media_type: text/html
.format: '.html'
.charset: utf-8
See also: TemplateHTMLRenderer
HTMLFormRenderer
Renders data returned by a serializer into an HTML form. The output of this renderer does not include the enclosing <form>
tags or an submit actions, as you'll probably need those to include the desired method and URL. Also note that the HTMLFormRenderer
does not yet support including field error messages.
Note that the template used by the HTMLFormRenderer
class, and the context submitted to it may be subject to change. If you need to use this renderer class it is advised that you either make a local copy of the class and templates, or follow the release note on REST framework upgrades closely.
.media_type: text/html
.format: '.form'
.charset: utf-8
.template: 'rest_framework/form.html'
BrowsableAPIRenderer
Renders data into HTML for the Browsable API. This renderer will determine which other renderer would have been given highest priority, and use that to display an API style response within the HTML page.
.media_type: text/html
.format: '.api'
.charset: utf-8
.template: 'rest_framework/api.html'
Customizing BrowsableAPIRenderer
By default the response content will be rendered with the highest priority renderer apart from BrowseableAPIRenderer
. If you need to customize this behavior, for example to use HTML as the default return format, but use JSON in the browsable API, you can do so by overriding the get_default_renderer()
method. For example:
class CustomBrowsableAPIRenderer(BrowsableAPIRenderer):
def get_default_renderer(self, view):
return JSONRenderer()
MultiPartRenderer
This renderer is used for rendering HTML multipart form data. It is not suitable as a response renderer, but is instead used for creating test requests, using REST framework's test client and test request factory.
.media_type: multipart/form-data; boundary=BoUnDaRyStRiNg
.format: '.multipart'
.charset: utf-8
Custom renderers
To implement a custom renderer, you should override BaseRenderer
, set the .media_type
and .format
properties, and implement the .render(self, data, media_type=None, renderer_context=None)
method.
The method should return a bytestring, which will be used as the body of the HTTP response.
The arguments passed to the .render()
method are:
data
The request data, as set by the Response()
instantiation.
media_type=None
Optional. If provided, this is the accepted media type, as determined by the content negotiation stage.
Depending on the client's Accept:
header, this may be more specific than the renderer's media_type
attribute, and may include media type parameters. For example "application/json; nested=true"
.
renderer_context=None
Optional. If provided, this is a dictionary of contextual information provided by the view.
By default this will include the following keys: view
, request
, response
, args
, kwargs
.
Example
The following is an example plaintext renderer that will return a response with the data
parameter as the content of the response.
from django.utils.encoding import smart_unicode
from rest_framework import renderers
class PlainTextRenderer(renderers.BaseRenderer):
media_type = 'text/plain'
format = 'txt'
def render(self, data, media_type=None, renderer_context=None):
return data.encode(self.charset)
Setting the character set
By default renderer classes are assumed to be using the UTF-8
encoding. To use a different encoding, set the charset
attribute on the renderer.
class PlainTextRenderer(renderers.BaseRenderer):
media_type = 'text/plain'
format = 'txt'
charset = 'iso-8859-1'
def render(self, data, media_type=None, renderer_context=None):
return data.encode(self.charset)
Note that if a renderer class returns a unicode string, then the response content will be coerced into a bytestring by the Response
class, with the charset
attribute set on the renderer used to determine the encoding.
If the renderer returns a bytestring representing raw binary content, you should set a charset value of None
, which will ensure the Content-Type
header of the response will not have a charset
value set.
In some cases you may also want to set the render_style
attribute to 'binary'
. Doing so will also ensure that the browsable API will not attempt to display the binary content as a string.
class JPEGRenderer(renderers.BaseRenderer):
media_type = 'image/jpeg'
format = 'jpg'
charset = None
render_style = 'binary'
def render(self, data, media_type=None, renderer_context=None):
return data
Advanced renderer usage
You can do some pretty flexible things using REST framework's renderers. Some examples...
- Provide either flat or nested representations from the same endpoint, depending on the requested media type.
- Serve both regular HTML webpages, and JSON based API responses from the same endpoints.
- Specify multiple types of HTML representation for API clients to use.
- Underspecify a renderer's media type, such as using
media_type = 'image/*'
, and use theAccept
header to vary the encoding of the response.
Varying behaviour by media type
In some cases you might want your view to use different serialization styles depending on the accepted media type. If you need to do this you can access request.accepted_renderer
to determine the negotiated renderer that will be used for the response.
For example:
@api_view(('GET',))
@renderer_classes((TemplateHTMLRenderer, JSONRenderer))
def list_users(request):
"""
A view that can return JSON or HTML representations
of the users in the system.
"""
queryset = Users.objects.filter(active=True)
if request.accepted_renderer.format == 'html':
# TemplateHTMLRenderer takes a context dict,
# and additionally requires a 'template_name'.
# It does not require serialization.
data = {'users': queryset}
return Response(data, template_name='list_users.html')
# JSONRenderer requires serialized data as normal.
serializer = UserSerializer(instance=queryset)
data = serializer.data
return Response(data)
Underspecifying the media type
In some cases you might want a renderer to serve a range of media types.
In this case you can underspecify the media types it should respond to, by using a media_type
value such as image/*
, or */*
.
If you underspecify the renderer's media type, you should make sure to specify the media type explicitly when you return the response, using the content_type
attribute. For example:
return Response(data, content_type='image/png')
Designing your media types
For the purposes of many Web APIs, simple JSON
responses with hyperlinked relations may be sufficient. If you want to fully embrace RESTful design and HATEOAS you'll need to consider the design and usage of your media types in more detail.
In the words of Roy Fielding, "A REST API should spend almost all of its descriptive effort in defining the media type(s) used for representing resources and driving application state, or in defining extended relation names and/or hypertext-enabled mark-up for existing standard media types.".
For good examples of custom media types, see GitHub's use of a custom application/vnd.github+json media type, and Mike Amundsen's IANA approved application/vnd.collection+json JSON-based hypermedia.
HTML error views
Typically a renderer will behave the same regardless of if it's dealing with a regular response, or with a response caused by an exception being raised, such as an Http404
or PermissionDenied
exception, or a subclass of APIException
.
If you're using either the TemplateHTMLRenderer
or the StaticHTMLRenderer
and an exception is raised, the behavior is slightly different, and mirrors Django's default handling of error views.
Exceptions raised and handled by an HTML renderer will attempt to render using one of the following methods, by order of precedence.
- Load and render a template named
{status_code}.html
. - Load and render a template named
api_exception.html
. - Render the HTTP status code and text, for example "404 Not Found".
Templates will render with a RequestContext
which includes the status_code
and details
keys.
Note: If DEBUG=True
, Django's standard traceback error page will be displayed instead of rendering the HTTP status code and text.
Third party packages
The following third party packages are also available.
MessagePack
MessagePack is a fast, efficient binary serialization format. Juan Riaza maintains the djangorestframework-msgpack package which provides MessagePack renderer and parser support for REST framework.
CSV
Comma-separated values are a plain-text tabular data format, that can be easily imported into spreadsheet applications. Mjumbe Poe maintains the djangorestframework-csv package which provides CSV renderer support for REST framework.
UltraJSON
UltraJSON is an optimized C JSON encoder which can give significantly faster JSON rendering. Jacob Haslehurst maintains the drf-ujson-renderer package which implements JSON rendering using the UJSON package.
CamelCase JSON
djangorestframework-camel-case provides camel case JSON renderers and parsers for REST framework. This allows serializers to use Python-style underscored field names, but be exposed in the API as Javascript-style camel case field names. It is maintained by Vitaly Babiy.