""" Renderers are used to serialize a View's output into specific media types. Django REST framework also provides HTML and PlainText renderers that help self-document the API, by serializing the output along with documentation regarding the View, output status and headers, and providing forms and links depending on the allowed methods, renderers and parsers on the View. """ import string from django import forms from django.template import RequestContext, loader from django.utils import simplejson as json from rest_framework.compat import yaml from rest_framework.settings import api_settings from rest_framework.utils import dict2xml from rest_framework.utils import encoders from rest_framework.utils.breadcrumbs import get_breadcrumbs from rest_framework.utils.mediatypes import get_media_type_params, add_media_type_param, media_type_matches from rest_framework import VERSION from rest_framework import serializers class BaseRenderer(object): """ All renderers must extend this class, set the :attr:`media_type` attribute, and override the :meth:`render` method. """ media_type = None format = None def __init__(self, view=None): self.view = view def can_handle_format(self, format): return format == self.format def can_handle_media_type(self, media_type): """ Returns `True` if this renderer is able to deal with the given media type. The default implementation for this function is to check the media type argument against the media_type attribute set on the class to see if they match. This may be overridden to provide for other behavior, but typically you'll instead want to just set the `media_type` attribute on the class. """ return media_type_matches(self.media_type, media_type) def render(self, obj=None, media_type=None): """ Given an object render it into a string. The requested media type is also passed to this method, as it may contain parameters relevant to how the parser should render the output. EG: ``application/json; indent=4`` By default render simply returns the output as-is. Override this method to provide for other behavior. """ if obj is None: return '' return str(obj) class JSONRenderer(BaseRenderer): """ Renderer which serializes to json. """ media_type = 'application/json' format = 'json' encoder_class = encoders.JSONEncoder def render(self, obj=None, media_type=None): """ Render `obj` into json. """ if obj is None: return '' # If the media type looks like 'application/json; indent=4', then # pretty print the result. indent = get_media_type_params(media_type).get('indent', None) sort_keys = False try: indent = max(min(int(indent), 8), 0) sort_keys = True except (ValueError, TypeError): indent = None return json.dumps(obj, cls=self.encoder_class, indent=indent, sort_keys=sort_keys) class JSONPRenderer(JSONRenderer): """ Renderer which serializes to json, wrapping the json output in a callback function. """ media_type = 'application/javascript' format = 'jsonp' callback_parameter = 'callback' default_callback = 'callback' def get_callback(self): """ Determine the name of the callback to wrap around the json output. """ params = self.view.request.GET return params.get(self.callback_parameter, self.default_callback) def render(self, obj=None, media_type=None): """ Renders into jsonp, wrapping the json output in a callback function. Clients may set the callback function name using a query parameter on the URL, for example: ?callback=exampleCallbackName """ callback = self.get_callback() json = super(JSONPRenderer, self).render(obj, media_type) return "%s(%s);" % (callback, json) class XMLRenderer(BaseRenderer): """ Renderer which serializes to XML. """ media_type = 'application/xml' format = 'xml' def render(self, obj=None, media_type=None): """ Renders *obj* into serialized XML. """ if obj is None: return '' return dict2xml(obj) class YAMLRenderer(BaseRenderer): """ Renderer which serializes to YAML. """ media_type = 'application/yaml' format = 'yaml' def render(self, obj=None, media_type=None): """ Renders *obj* into serialized YAML. """ if obj is None: return '' return yaml.safe_dump(obj) class TemplateRenderer(BaseRenderer): """ A Base class provided for convenience. Render the object simply by using the given template. To create a template renderer, subclass this class, and set the :attr:`media_type` and :attr:`template` attributes. """ media_type = None template = None def render(self, obj=None, media_type=None): """ Renders *obj* using the :attr:`template` specified on the class. """ if obj is None: return '' template = loader.get_template(self.template) context = RequestContext(self.view.request, {'object': obj}) return template.render(context) class DocumentingHTMLRenderer(BaseRenderer): """ HTML renderer used to self-document the API. """ media_type = 'text/html' format = 'html' template = 'rest_framework/api.html' def _get_content(self, view, request, obj, media_type): """ Get the content as if it had been rendered by a non-documenting renderer. (Typically this will be the content as it would have been if the Resource had been requested with an 'Accept: */*' header, although with verbose style formatting if appropriate.) """ # Find the first valid renderer and render the content. (Don't use another documenting renderer.) renderers = [renderer for renderer in view.renderer_classes if not issubclass(renderer, DocumentingHTMLRenderer)] if not renderers: return '[No renderers were found]' media_type = add_media_type_param(media_type, 'indent', '4') content = renderers[0](view).render(obj, media_type) if not all(char in string.printable for char in content): return '[%d bytes of binary content]' return content def _get_form_instance(self, view, method): """ Get a form, possibly bound to either the input or output data. In the absence on of the Resource having an associated form then provide a form that can be used to submit arbitrary content. """ if not hasattr(self.view, 'get_serializer'): # No serializer, no form. return # We need to map our Fields to Django's Fields. field_mapping = dict([ [serializers.FloatField.__name__, forms.FloatField], [serializers.IntegerField.__name__, forms.IntegerField], [serializers.DateTimeField.__name__, forms.DateTimeField], [serializers.DateField.__name__, forms.DateField], [serializers.EmailField.__name__, forms.EmailField], [serializers.CharField.__name__, forms.CharField], [serializers.BooleanField.__name__, forms.BooleanField] ]) # Creating an on the fly form see: http://stackoverflow.com/questions/3915024/dynamically-creating-classes-python fields = {} object, data = None, None if hasattr(self.view, 'object'): object = self.view.object serializer = self.view.get_serializer(instance=object) for k, v in serializer.fields.items(): if v.readonly: continue fields[k] = field_mapping[v.__class__.__name__]() OnTheFlyForm = type("OnTheFlyForm", (forms.Form,), fields) if object and not self.view.request.method == 'DELETE': # Don't fill in the form when the object is deleted data = serializer.data form_instance = OnTheFlyForm(data) return form_instance def _get_generic_content_form(self, view): """ Returns a form that allows for arbitrary content types to be tunneled via standard HTML forms (Which are typically application/x-www-form-urlencoded) """ # If we're not using content overloading there's no point in supplying a generic form, # as the view won't treat the form's value as the content of the request. if not getattr(view.request, '_USE_FORM_OVERLOADING', False): return None # NB. http://jacobian.org/writing/dynamic-form-generation/ class GenericContentForm(forms.Form): def __init__(self, view, request): """We don't know the names of the fields we want to set until the point the form is instantiated, as they are determined by the Resource the form is being created against. Add the fields dynamically.""" super(GenericContentForm, self).__init__() parsed_media_types = [parser.media_type for parser in view.parser_classes] contenttype_choices = [(media_type, media_type) for media_type in parsed_media_types] initial_contenttype = parsed_media_types[0] self.fields[request._CONTENTTYPE_PARAM] = forms.ChoiceField(label='Content Type', choices=contenttype_choices, initial=initial_contenttype) self.fields[request._CONTENT_PARAM] = forms.CharField(label='Content', widget=forms.Textarea) # If either of these reserved parameters are turned off then content tunneling is not possible if self.view.request._CONTENTTYPE_PARAM is None or self.view.request._CONTENT_PARAM is None: return None # Okey doke, let's do it return GenericContentForm(view, view.request) def get_name(self): try: return self.view.get_name() except AttributeError: return self.view.__doc__ def get_description(self, html=None): if html is None: html = bool('html' in self.format) try: return self.view.get_description(html) except AttributeError: return self.view.__doc__ def render(self, obj=None, media_type=None): """ Renders *obj* using the :attr:`template` set on the class. The context used in the template contains all the information needed to self-document the response to this request. """ view = self.view request = view.request response = view.response content = self._get_content(view, request, obj, media_type) put_form_instance = self._get_form_instance(self.view, 'put') post_form_instance = self._get_form_instance(self.view, 'post') name = self.get_name() description = self.get_description() breadcrumb_list = get_breadcrumbs(self.view.request.path) template = loader.get_template(self.template) context = RequestContext(self.view.request, { 'content': content, 'view': view, 'request': request, 'response': response, 'description': description, 'name': name, 'version': VERSION, 'breadcrumblist': breadcrumb_list, 'allowed_methods': self.view.allowed_methods, 'available_formats': [renderer.format for renderer in self.view.renderer_classes], 'put_form': put_form_instance, 'post_form': post_form_instance, 'api_settings': api_settings }) ret = template.render(context) # Munge DELETE Response code to allow us to return content # (Do this *after* we've rendered the template so that we include # the normal deletion response code in the output) if self.view.response.status_code == 204: self.view.response.status_code = 200 return ret