class FobiMetaData(SimpleMetadata): """Meta data for better representation of the form elements.""" __mapping = copy.copy(SimpleMetadata.label_lookup.mapping) __mapping.update({ MultipleChoiceWithMaxField: 'multiple choice', ContentImageField: 'content', ContentTextField: 'content', ContentVideoField: 'content', }) label_lookup = ClassLookupDict(__mapping) def get_field_info(self, field): """Get field info. Given an instance of a serializer field, return a dictionary of metadata about it. """ field_info = super(FobiMetaData, self).get_field_info(field) for __key in ['initial', 'max_value', 'min_value']: __val = getattr(field, __key, None) if __val not in (None, ''): field_info[__key] = __val field_metadata = field.root.get_fields_metadata().get( field.field_name, {}) if field_metadata: for __k, __val in field_metadata.items(): if __val not in (None, ''): field_info[__k] = __val return field_info
def get_polymorphic_fields(self): """ returns a dictionary of {field_name: field_instance} for polymorphic fields. """ if not self.polymorphic_class_mapping: self._build_polymorphic_field_mapping() polymorphic_fields = OrderedDict() try: field_mapping = self._field_mapping except AttributeError: field_mapping = ClassLookupDict(self.serializer_field_mapping) for _, subclass in six.iteritems(self.polymorphic_class_mapping): for field in subclass.fields: rest_field = field_mapping[field] kwargs = get_field_kwargs(field.name, field) if 'choices' in kwargs: rest_field = serializers.ChoiceField if not issubclass(rest_field, serializers.ModelField): kwargs.pop('model_field', None) if (not issubclass(rest_field, serializers.CharField) and not issubclass(rest_field, serializers.ChoiceField)): kwargs.pop('allow_blank', None) polymorphic_fields[field.name] = rest_field(**kwargs) return polymorphic_fields
def __init__(self, **kwargs): super().__init__(**kwargs) fields_we_do_not_want = [ 'id', 'email', 'password', 'is_staff', 'is_superuser', 'is_active', 'date_joined', 'last_login' ] important_signup_fields = get_user_signup_fields() model = get_user_model() # Using ModelSerializers model field to serializer field mapper # to build missing fields for signup serializer original_mapping = serializers.ModelSerializer.serializer_field_mapping try: from phonenumber_field.modelfields import PhoneNumberField original_mapping.update({PhoneNumberField: serializers.CharField}) except ImportError: pass mapping = ClassLookupDict(original_mapping) for model_field in model._meta.fields: if model_field.name in important_signup_fields and model_field.name not in fields_we_do_not_want: field_kwargs = {'required': True} if 'phone' in model_field.name: field_kwargs['validators'] = [phonenumber_validation] self._declared_fields[model_field.name] = mapping[model_field]( **field_kwargs)
class GeoModelSerializer(ModelSerializer): """ A subclass of DFR ModelSerializer that adds support for GeoDjango fields to be serialized as GeoJSON compatible data """ _field_mapping = ClassLookupDict(_geo_field_mapping)
class FormMetadata(SimpleMetadata): """ Sirve para mostrar el schema de un form al hacer una petición con el método OPTIONS. """ label_lookup = ClassLookupDict({ serializers.Field: 'field', serializers.BooleanField: 'checkbox', serializers.NullBooleanField: 'boolean', serializers.CharField: 'text', serializers.UUIDField: 'text', serializers.URLField: 'text', serializers.EmailField: 'email', serializers.RegexField: 'text', serializers.SlugField: 'text', serializers.IntegerField: 'number', serializers.FloatField: 'number', serializers.DecimalField: 'number', serializers.DateField: 'date', serializers.DateTimeField: 'datetime', serializers.TimeField: 'time', serializers.ChoiceField: 'choice', serializers.MultipleChoiceField: 'multiple choice', serializers.FileField: 'file', serializers.ImageField: 'image', serializers.ListField: 'list', serializers.DictField: 'nested object', serializers.Serializer: 'nested object', }) def get_field_info(self, field): """ Retorna la metadata de un field de serializer, en caso de que el campo sea de tipo serializer.Field, significa que es una foreign key por lo que se agregan las opciones de dicho campo """ field_info = super().get_field_info(field) field_info['name'] = field.field_name if field_info['type'] == 'field': try: options = field.queryset.filter(is_active=True) except AttributeError: options = [] choices = [] for choice in options: choices.append({'value': choice.id, 'text': choice.name}) field_info['choices'] = choices elif field_info['type'] == 'choice': # Se cambia el nombre de las keys para que se use en # el frontend choices = [] for choice in field_info['choices']: choices.append({ 'value': choice['value'], 'text': choice['display_name'] }) field_info['choices'] = choices return field_info
def label_lookup(self): mapping = SimpleMetadata.label_lookup.mapping mapping.update({ AuthorField: "string", CopySerializer: "array", EntrySerializer: "array", ImageFieldSerializer: "image", RichTextField: "richtext" }) return ClassLookupDict(mapping)
def __init__(self, model, field_names=None, package=None): self.model = model self.field_names = field_names if not package: package = model.__name__.lower() self.package = package self.type_mapping = ClassLookupDict(self.type_mapping) # Retrieve metadata about fields & relationships on the model class. self.field_info = model_meta.get_field_info(model) self._writer = _CodeWriter()
def get_serializer_class(field): bsm_custom = { **ModelSerializer.serializer_field_mapping, JSONField: drf_field.JSONField, OriginJSONField: DrfJSONField, models.BooleanField: fields.BooleanField, models.DateTimeField: fields.DateTimeField, } try: return ClassLookupDict(bsm_custom)[field] except: return fields.CharField
def get_fields(self): """Build and return a list with all the serializer fields""" fields = OrderedDict() declared_fields = self.get_declared_fields() field_classes = ClassLookupDict(self.serializer_field_mapping) fields_extra_kwargs = getattr(self.Meta, 'extra_kwargs', {}) for opt_name, opt_class in iter( self.instance.declared_options.items()): # Add or exclude any fields declared in Meta.fields or .exclude if self.meta_fields and self.meta_fields != ALL_FIELDS and opt_name not in self.meta_fields: continue if self.meta_exclude and opt_name in self.meta_exclude: continue # If the field is already declared on the serializer, use it if opt_name in declared_fields: fields[opt_name] = declared_fields[opt_name] continue # Create other new fields based on conf option definition extra_kwargs = fields_extra_kwargs.get(opt_name, {}) if getattr(opt_class, 'choices', None) is not None: # Every field with choices defined, will be represented as a ChoiceField fields[opt_name] = serializers.ChoiceField( choices=opt_class.choices, **extra_kwargs) else: self.get_field_kwargs(option_instance=opt_class, extra_kwargs=extra_kwargs) # List or Dict field with child if isinstance(opt_class, ( options.ListOpt, options.DictOpt, )) and 'child' not in extra_kwargs: child_kwargs = {} if getattr(opt_class.item_type, 'choices', None) is not None: child = serializers.ChoiceField( choices=opt_class.item_type.choices) else: child = field_classes[opt_class.item_type] self.get_field_kwargs( option_instance=opt_class.item_type, extra_kwargs=child_kwargs) extra_kwargs['child'] = child(**child_kwargs) fields[opt_name] = field_classes[opt_class](**extra_kwargs) for field_name, field_instance in iter(declared_fields.items()): # NOTE(tomo): Add any serializer declared fields that are not part of the config class if field_name not in fields and (self.meta_fields == ALL_FIELDS or field_name in self.meta_fields): fields[field_name] = field_instance return fields
def build_standard_field(self, field_name, model_field): """ Create regular model fields. """ field_mapping = ClassLookupDict(self.serializer_field_mapping) field_class = field_mapping[model_field] field_kwargs = self.get_field_kwargs(field_name, model_field) if 'choices' in field_kwargs: # Fields with choices get coerced into `ChoiceField` # instead of using their regular typed field. field_class = self.serializer_choice_field # Some model fields may introduce kwargs that would not be valid # for the choice field. We need to strip these out. # Eg. models.DecimalField(max_digits=3, decimal_places=1, # choices=DECIMAL_CHOICES) valid_kwargs = { 'read_only', 'write_only', 'required', 'default', 'initial', 'source', 'label', 'help_text', 'style', 'error_messages', 'validators', 'allow_null', 'allow_blank', 'choices' } for key in list(field_kwargs.keys()): if key not in valid_kwargs: field_kwargs.pop(key) if not issubclass(field_class, ModelField): # `model_field` is only valid for the fallback case of # `ModelField`, which is used when no other typed field # matched to the model field. field_kwargs.pop('model_field', None) if not issubclass(field_class, CharField) and not \ issubclass(field_class, ChoiceField): # `allow_blank` is only valid for textual fields. field_kwargs.pop('allow_blank', None) if postgres_fields and isinstance(model_field, postgres_fields.ArrayField): # Populate the `child` argument on `ListField` instances generated # for the PostgrSQL specfic `ArrayField`. child_model_field = model_field.base_field child_field_class, child_field_kwargs = self.build_standard_field( 'child', child_model_field) field_kwargs['child'] = child_field_class(**child_field_kwargs) return field_class, field_kwargs
def build_standard_field(self, field_name, model_field): field_mapping = ClassLookupDict(self.serializer_field_mapping) field_class = field_mapping[model_field] field_kwargs = get_field_kwargs(field_name, model_field) if 'choices' in field_kwargs: # Fields with choices get coerced into `ChoiceField` # instead of using their regular typed field. field_class = self.serializer_choice_field # Some model fields may introduce kwargs that would not be valid # for the choice field. We need to strip these out. # Eg. models.DecimalField(max_digits=3, decimal_places=1, choices=DECIMAL_CHOICES) valid_kwargs = set( ('read_only', 'write_only', 'required', 'default', 'initial', 'source', 'label', 'help_text', 'style', 'error_messages', 'validators', 'allow_null', 'allow_blank', 'choices')) for key in list(field_kwargs.keys()): if key not in valid_kwargs: field_kwargs.pop(key) if 'regex' in field_kwargs: field_class = drf_fields.RegexField if not issubclass(field_class, drfm_fields.DocumentField): # `model_field` is only valid for the fallback case of # `ModelField`, which is used when no other typed field # matched to the model field. field_kwargs.pop('model_field', None) if not issubclass(field_class, drf_fields.CharField) and not issubclass( field_class, drf_fields.ChoiceField): # `allow_blank` is only valid for textual fields. field_kwargs.pop('allow_blank', None) if field_class is drf_fields.BooleanField and field_kwargs.get( 'allow_null', False): field_kwargs.pop('allow_null', None) field_kwargs.pop('default', None) field_class = drf_fields.NullBooleanField return field_class, field_kwargs
class NoPermissionMetadata(SimpleMetadata): label_lookup = ClassLookupDict({ serializers.Field: 'field', serializers.BooleanField: 'boolean', serializers.NullBooleanField: 'boolean', serializers.CharField: 'string', serializers.URLField: 'url', serializers.EmailField: 'email', serializers.RegexField: 'regex', serializers.SlugField: 'slug', serializers.IntegerField: 'integer', serializers.FloatField: 'float', serializers.DecimalField: 'decimal', serializers.DateField: 'date', serializers.DateTimeField: 'datetime', serializers.TimeField: 'time', serializers.ChoiceField: 'choice', serializers.MultipleChoiceField: 'multiple choice', serializers.FileField: 'file upload', serializers.ImageField: 'image upload', serializers.ListField: 'list', serializers.DictField: 'nested object', serializers.Serializer: 'nested object', c_fields.BooleanField: 'boolean', }) def determine_actions(self, request, view): """ For generic class based views we return information about the fields that are accepted for 'PUT' and 'POST' methods. """ actions = {} for method in {'PUT', 'POST'} & set(view.allowed_methods): view.request = clone_request(request, method) serializer = view.get_serializer() actions[method] = self.get_serializer_info(serializer) view.request = request return actions
class FobiMetaData(SimpleMetadata): """Meta data for better representation of the form elements.""" __mapping = copy.copy(SimpleMetadata.label_lookup.mapping) __mapping.update({ MultipleChoiceWithMaxField: 'multiple choice', ContentImageField: 'content', ContentTextField: 'content', ContentVideoField: 'content', }) label_lookup = ClassLookupDict(__mapping) def get_field_info(self, field): """Get field info. Given an instance of a serializer field, return a dictionary of metadata about it. """ field_info = super(FobiMetaData, self).get_field_info(field) if isinstance( field, (ContentTextField, ContentImageField, ContentVideoField)): field_info['type'] = 'content' if isinstance(field, ContentTextField): field_info['contenttype'] = 'text' field_info['content'] = field.initial field_info['raw'] = field.raw_data elif isinstance(field, ContentImageField): field_info['contenttype'] = 'image' field_info['content'] = field.initial field_info['raw'] = field.raw_data else: field_info['contenttype'] = 'video' field_info['content'] = field.initial field_info['raw'] = field.raw_data return field_info
from rest_framework.request import clone_request from rest_framework.response import Response from rest_framework.settings import api_settings from rest_framework.utils import formatting from rest_framework.utils.field_mapping import ClassLookupDict from rest_framework.utils.model_meta import _get_pk from rest_framework.views import APIView header_regex = re.compile('^[a-zA-Z][0-9A-Za-z_]*:') types_lookup = ClassLookupDict({ serializers.Field: 'string', serializers.IntegerField: 'integer', serializers.FloatField: 'number', serializers.DecimalField: 'number', serializers.BooleanField: 'boolean', serializers.FileField: 'file', serializers.MultipleChoiceField: 'array', serializers.ManyRelatedField: 'array', serializers.Serializer: 'object', serializers.ListSerializer: 'array' }) def common_path(paths): split_paths = [path.strip('/').split('/') for path in paths] s1 = min(split_paths) s2 = max(split_paths) common = s1 for i, c in enumerate(s1): if c != s2[i]: common = s1[:i]
class ModelSerializer(Serializer): """ A `ModelSerializer` is just a regular `Serializer`, except that: * A set of default fields are automatically populated. * A set of default validators are automatically populated. * Default `.create()` and `.update()` implementations are provided. """ _field_mapping = ClassLookupDict({ models.AutoField: IntegerField, models.BigIntegerField: IntegerField, models.BooleanField: BooleanField, models.CharField: CharField, models.CommaSeparatedIntegerField: CharField, models.DateField: DateField, models.DateTimeField: DateTimeField, models.DecimalField: DecimalField, models.EmailField: EmailField, models.Field: ModelField, models.FileField: FileField, models.FloatField: FloatField, models.ImageField: ImageField, models.IntegerField: IntegerField, models.NullBooleanField: NullBooleanField, models.PositiveIntegerField: IntegerField, models.PositiveSmallIntegerField: IntegerField, models.SlugField: SlugField, models.SmallIntegerField: IntegerField, models.TextField: CharField, models.TimeField: TimeField, models.URLField: URLField, }) _related_class = PrimaryKeyRelatedField def create(self, validated_attrs): # Check that the user isn't trying to handle a writable nested field. # If we don't do this explicitly they'd likely get a confusing # error at the point of calling `Model.objects.create()`. assert not any( isinstance(field, BaseSerializer) and not field.read_only for field in self.fields.values() ), ( 'The `.create()` method does not suport nested writable fields ' 'by default. Write an explicit `.create()` method for serializer ' '`%s.%s`, or set `read_only=True` on nested serializer fields.' % (self.__class__.__module__, self.__class__.__name__) ) ModelClass = self.Meta.model # Remove many-to-many relationships from validated_attrs. # They are not valid arguments to the default `.create()` method, # as they require that the instance has already been saved. info = model_meta.get_field_info(ModelClass) many_to_many = {} for field_name, relation_info in info.relations.items(): if relation_info.to_many and (field_name in validated_attrs): many_to_many[field_name] = validated_attrs.pop(field_name) instance = ModelClass.objects.create(**validated_attrs) # Save many-to-many relationships after the instance is created. if many_to_many: for field_name, value in many_to_many.items(): setattr(instance, field_name, value) return instance def update(self, instance, validated_attrs): assert not any( isinstance(field, BaseSerializer) and not field.read_only for field in self.fields.values() ), ( 'The `.update()` method does not suport nested writable fields ' 'by default. Write an explicit `.update()` method for serializer ' '`%s.%s`, or set `read_only=True` on nested serializer fields.' % (self.__class__.__module__, self.__class__.__name__) ) for attr, value in validated_attrs.items(): setattr(instance, attr, value) instance.save() return instance def get_validators(self): field_names = set([ field.source for field in self.fields.values() if (field.source != '*') and ('.' not in field.source) ]) validators = getattr(getattr(self, 'Meta', None), 'validators', []) model_class = self.Meta.model # Note that we make sure to check `unique_together` both on the # base model class, but also on any parent classes. for parent_class in [model_class] + list(model_class._meta.parents.keys()): for unique_together in parent_class._meta.unique_together: if field_names.issuperset(set(unique_together)): validator = UniqueTogetherValidator( queryset=parent_class._default_manager, fields=unique_together ) validators.append(validator) # Add any unique_for_date/unique_for_month/unique_for_year constraints. info = model_meta.get_field_info(model_class) for field_name, field in info.fields_and_pk.items(): if field.unique_for_date and field_name in field_names: validator = UniqueForDateValidator( queryset=model_class._default_manager, field=field_name, date_field=field.unique_for_date ) validators.append(validator) if field.unique_for_month and field_name in field_names: validator = UniqueForMonthValidator( queryset=model_class._default_manager, field=field_name, date_field=field.unique_for_month ) validators.append(validator) if field.unique_for_year and field_name in field_names: validator = UniqueForYearValidator( queryset=model_class._default_manager, field=field_name, date_field=field.unique_for_year ) validators.append(validator) return validators def get_fields(self): declared_fields = copy.deepcopy(self._declared_fields) ret = OrderedDict() model = getattr(self.Meta, 'model') fields = getattr(self.Meta, 'fields', None) exclude = getattr(self.Meta, 'exclude', None) depth = getattr(self.Meta, 'depth', 0) extra_kwargs = getattr(self.Meta, 'extra_kwargs', {}) assert not (fields and exclude), "Cannot set both 'fields' and 'exclude'." extra_kwargs = self._include_additional_options(extra_kwargs) # Retrieve metadata about fields & relationships on the model class. info = model_meta.get_field_info(model) # Use the default set of field names if none is supplied explicitly. if fields is None: fields = self._get_default_field_names(declared_fields, info) exclude = getattr(self.Meta, 'exclude', None) if exclude is not None: for field_name in exclude: fields.remove(field_name) # Determine the set of model fields, and the fields that they map to. # We actually only need this to deal with the slightly awkward case # of supporting `unique_for_date`/`unique_for_month`/`unique_for_year`. model_field_mapping = {} for field_name in fields: if field_name in declared_fields: field = declared_fields[field_name] source = field.source or field_name else: try: source = extra_kwargs[field_name]['source'] except KeyError: source = field_name # Model fields will always have a simple source mapping, # they can't be nested attribute lookups. if '.' not in source and source != '*': model_field_mapping[source] = field_name # Determine if we need any additional `HiddenField` or extra keyword # arguments to deal with `unique_for` dates that are required to # be in the input data in order to validate it. hidden_fields = {} unique_constraint_names = set() for model_field_name, field_name in model_field_mapping.items(): try: model_field = model._meta.get_field(model_field_name) except FieldDoesNotExist: continue # Include each of the `unique_for_*` field names. unique_constraint_names |= set([ model_field.unique_for_date, model_field.unique_for_month, model_field.unique_for_year ]) unique_constraint_names -= set([None]) # Include each of the `unique_together` field names, # so long as all the field names are included on the serializer. for parent_class in [model] + list(model._meta.parents.keys()): for unique_together_list in parent_class._meta.unique_together: if set(fields).issuperset(set(unique_together_list)): unique_constraint_names |= set(unique_together_list) # Now we have all the field names that have uniqueness constraints # applied, we can add the extra 'required=...' or 'default=...' # arguments that are appropriate to these fields, or add a `HiddenField` for it. for unique_constraint_name in unique_constraint_names: # Get the model field that is refered too. unique_constraint_field = model._meta.get_field(unique_constraint_name) if getattr(unique_constraint_field, 'auto_now_add', None): default = CreateOnlyDefault(timezone.now) elif getattr(unique_constraint_field, 'auto_now', None): default = timezone.now elif unique_constraint_field.has_default(): default = unique_constraint_field.default else: default = empty if unique_constraint_name in model_field_mapping: # The corresponding field is present in the serializer if unique_constraint_name not in extra_kwargs: extra_kwargs[unique_constraint_name] = {} if default is empty: if 'required' not in extra_kwargs[unique_constraint_name]: extra_kwargs[unique_constraint_name]['required'] = True else: if 'default' not in extra_kwargs[unique_constraint_name]: extra_kwargs[unique_constraint_name]['default'] = default elif default is not empty: # The corresponding field is not present in the, # serializer. We have a default to use for it, so # add in a hidden field that populates it. hidden_fields[unique_constraint_name] = HiddenField(default=default) # Now determine the fields that should be included on the serializer. for field_name in fields: if field_name in declared_fields: # Field is explicitly declared on the class, use that. ret[field_name] = declared_fields[field_name] continue elif field_name in info.fields_and_pk: # Create regular model fields. model_field = info.fields_and_pk[field_name] field_cls = self._field_mapping[model_field] kwargs = get_field_kwargs(field_name, model_field) if 'choices' in kwargs: # Fields with choices get coerced into `ChoiceField` # instead of using their regular typed field. field_cls = ChoiceField if not issubclass(field_cls, ModelField): # `model_field` is only valid for the fallback case of # `ModelField`, which is used when no other typed field # matched to the model field. kwargs.pop('model_field', None) if not issubclass(field_cls, CharField): # `allow_blank` is only valid for textual fields. kwargs.pop('allow_blank', None) elif field_name in info.relations: # Create forward and reverse relationships. relation_info = info.relations[field_name] if depth: field_cls = self._get_nested_class(depth, relation_info) kwargs = get_nested_relation_kwargs(relation_info) else: field_cls = self._related_class kwargs = get_relation_kwargs(field_name, relation_info) # `view_name` is only valid for hyperlinked relationships. if not issubclass(field_cls, HyperlinkedRelatedField): kwargs.pop('view_name', None) elif hasattr(model, field_name): # Create a read only field for model methods and properties. field_cls = ReadOnlyField kwargs = {} elif field_name == api_settings.URL_FIELD_NAME: # Create the URL field. field_cls = HyperlinkedIdentityField kwargs = get_url_kwargs(model) else: raise ImproperlyConfigured( 'Field name `%s` is not valid for model `%s`.' % (field_name, model.__class__.__name__) ) # Check that any fields declared on the class are # also explicity included in `Meta.fields`. missing_fields = set(declared_fields.keys()) - set(fields) if missing_fields: missing_field = list(missing_fields)[0] raise ImproperlyConfigured( 'Field `%s` has been declared on serializer `%s`, but ' 'is missing from `Meta.fields`.' % (missing_field, self.__class__.__name__) ) # Populate any kwargs defined in `Meta.extra_kwargs` extras = extra_kwargs.get(field_name, {}) if extras.get('read_only', False): for attr in [ 'required', 'default', 'allow_blank', 'allow_null', 'min_length', 'max_length', 'min_value', 'max_value', 'validators', 'queryset' ]: kwargs.pop(attr, None) if extras.get('default') and kwargs.get('required') is False: kwargs.pop('required') kwargs.update(extras) # Create the serializer field. ret[field_name] = field_cls(**kwargs) for field_name, field in hidden_fields.items(): ret[field_name] = field return ret def _include_additional_options(self, extra_kwargs): read_only_fields = getattr(self.Meta, 'read_only_fields', None) if read_only_fields is not None: for field_name in read_only_fields: kwargs = extra_kwargs.get(field_name, {}) kwargs['read_only'] = True extra_kwargs[field_name] = kwargs # These are all pending deprecation. write_only_fields = getattr(self.Meta, 'write_only_fields', None) if write_only_fields is not None: warnings.warn( "The `Meta.write_only_fields` option is pending deprecation. " "Use `Meta.extra_kwargs={<field_name>: {'write_only': True}}` instead.", PendingDeprecationWarning, stacklevel=3 ) for field_name in write_only_fields: kwargs = extra_kwargs.get(field_name, {}) kwargs['write_only'] = True extra_kwargs[field_name] = kwargs view_name = getattr(self.Meta, 'view_name', None) if view_name is not None: warnings.warn( "The `Meta.view_name` option is pending deprecation. " "Use `Meta.extra_kwargs={'url': {'view_name': ...}}` instead.", PendingDeprecationWarning, stacklevel=3 ) kwargs = extra_kwargs.get(api_settings.URL_FIELD_NAME, {}) kwargs['view_name'] = view_name extra_kwargs[api_settings.URL_FIELD_NAME] = kwargs lookup_field = getattr(self.Meta, 'lookup_field', None) if lookup_field is not None: warnings.warn( "The `Meta.lookup_field` option is pending deprecation. " "Use `Meta.extra_kwargs={'url': {'lookup_field': ...}}` instead.", PendingDeprecationWarning, stacklevel=3 ) kwargs = extra_kwargs.get(api_settings.URL_FIELD_NAME, {}) kwargs['lookup_field'] = lookup_field extra_kwargs[api_settings.URL_FIELD_NAME] = kwargs return extra_kwargs def _get_default_field_names(self, declared_fields, model_info): return ( [model_info.pk.name] + list(declared_fields.keys()) + list(model_info.fields.keys()) + list(model_info.forward_relations.keys()) ) def _get_nested_class(self, nested_depth, relation_info): class NestedSerializer(ModelSerializer): class Meta: model = relation_info.related depth = nested_depth return NestedSerializer
default_style = ClassLookupDict({ serializers.Field: { "tag": "input", "input_type": "text" }, serializers.EmailField: { "tag": "input", "input_type": "email" }, serializers.URLField: { "tag": "input", "input_type": "url" }, serializers.IntegerField: { "tag": "input", "input_type": "number" }, serializers.FloatField: { "tag": "input", "input_type": "number" }, serializers.DateTimeField: { "tag": "input", "input_type": "datetime-local" }, serializers.DateField: { "tag": "input", "input_type": "date" }, serializers.TimeField: { "tag": "input", "input_type": "time" }, serializers.FileField: { "tag": "input", "input_type": "file" }, serializers.BooleanField: { "tag": "checkbox" }, serializers.ChoiceField: { "tag": "select", }, # Also valid: 'radio' serializers.MultipleChoiceField: { "tag": "select_multiple", # Also valid: 'checkbox_multiple' }, serializers.RelatedField: { "tag": "select", }, # Also valid: 'radio' serializers.ManyRelatedField: { "tag": "select multiple", # Also valid: 'checkbox_multiple' }, serializers.Serializer: { "tag": "fieldset" }, serializers.ListSerializer: { "tag": "list_fieldset" }, serializers.ListField: { "tag": "list_field" }, serializers.DictField: { "tag": "dict_field" }, serializers.FilePathField: { "tag": "input", "input_type": "file" }, serializers.JSONField: { "tag": "textarea", }, })
INPUT_TYPE_DATETIME = "datetime" INPUT_TYPE_CHOICE = "select" INPUT_TYPE_MULTI_CHOICE = "multi_select" label_lookup = ClassLookupDict({ serializers.Field: "field", serializers.BooleanField: "boolean", serializers.NullBooleanField: "boolean", serializers.CharField: "string", serializers.UUIDField: "string", serializers.URLField: "url", serializers.EmailField: "email", serializers.RegexField: "regex", serializers.SlugField: "slug", serializers.IntegerField: "integer", serializers.FloatField: "float", serializers.DecimalField: "decimal", serializers.DateField: "date", serializers.DateTimeField: "datetime", serializers.TimeField: "time", serializers.ChoiceField: "choice", serializers.MultipleChoiceField: "multiple choice", serializers.FileField: "file upload", serializers.ImageField: "image upload", serializers.ListField: "list", serializers.DictField: "nested object", serializers.Serializer: "nested object", }) search_type_lookup = ClassLookupDict({ serializers.CharField: INPUT_TYPE_INPUT,
class JSONAPIMetadata(SimpleMetadata): """ This is the JSON:API metadata implementation. It returns an ad-hoc set of information about the view. There are not any formalized standards for `OPTIONS` responses for us to base this on. """ type_lookup = ClassLookupDict({ serializers.Field: 'GenericField', serializers.RelatedField: 'Relationship', serializers.BooleanField: 'Boolean', serializers.NullBooleanField: 'Boolean', serializers.CharField: 'String', serializers.URLField: 'URL', serializers.EmailField: 'Email', serializers.RegexField: 'Regex', serializers.SlugField: 'Slug', serializers.IntegerField: 'Integer', serializers.FloatField: 'Float', serializers.DecimalField: 'Decimal', serializers.DateField: 'Date', serializers.DateTimeField: 'DateTime', serializers.TimeField: 'Time', serializers.ChoiceField: 'Choice', serializers.MultipleChoiceField: 'MultipleChoice', serializers.FileField: 'File', serializers.ImageField: 'Image', serializers.ListField: 'List', serializers.DictField: 'Dict', serializers.Serializer: 'Serializer', }) try: relation_type_lookup = ClassLookupDict({ related.ManyToManyDescriptor: 'ManyToMany', related.ReverseManyToOneDescriptor: 'OneToMany', related.ForwardManyToOneDescriptor: 'ManyToOne', }) except AttributeError: relation_type_lookup = ClassLookupDict({ related.ManyRelatedObjectsDescriptor: 'ManyToMany', related.ReverseManyRelatedObjectsDescriptor: 'ManyToMany', related.ForeignRelatedObjectsDescriptor: 'OneToMany', related.ReverseSingleRelatedObjectDescriptor: 'ManyToOne', }) def determine_metadata(self, request, view): metadata = OrderedDict() metadata['name'] = view.get_view_name() metadata['description'] = view.get_view_description() metadata['renders'] = [ renderer.media_type for renderer in view.renderer_classes ] metadata['parses'] = [ parser.media_type for parser in view.parser_classes ] metadata['allowed_methods'] = view.allowed_methods if hasattr(view, 'get_serializer'): actions = self.determine_actions(request, view) if actions: metadata['actions'] = actions return metadata def get_serializer_info(self, serializer): """ Given an instance of a serializer, return a dictionary of metadata about its fields. """ if hasattr(serializer, 'child'): # If this is a `ListSerializer` then we want to examine the # underlying child serializer instance instead. serializer = serializer.child # Remove the URL field if present serializer.fields.pop(api_settings.URL_FIELD_NAME, None) return OrderedDict([ (format_value(field_name), self.get_field_info(field)) for field_name, field in serializer.fields.items() ]) def get_field_info(self, field): """ Given an instance of a serializer field, return a dictionary of metadata about it. """ field_info = OrderedDict() serializer = field.parent if isinstance(field, serializers.ManyRelatedField): field_info['type'] = self.type_lookup[field.child_relation] else: field_info['type'] = self.type_lookup[field] try: serializer_model = getattr(serializer.Meta, 'model') field_info['relationship_type'] = self.relation_type_lookup[ getattr(serializer_model, field.field_name)] except KeyError: pass except AttributeError: pass else: field_info['relationship_resource'] = get_related_resource_type( field) field_info['required'] = getattr(field, 'required', False) attrs = [ 'read_only', 'write_only', 'label', 'help_text', 'min_length', 'max_length', 'min_value', 'max_value', 'initial' ] for attr in attrs: value = getattr(field, attr, None) if value is not None and value != '': field_info[attr] = force_text(value, strings_only=True) if getattr(field, 'child', None): field_info['child'] = self.get_field_info(field.child) elif getattr(field, 'fields', None): field_info['children'] = self.get_serializer_info(field) if (not field_info.get('read_only') and not field_info.get('relationship_resource') and hasattr(field, 'choices')): field_info['choices'] = [{ 'value': choice_value, 'display_name': force_text(choice_name, strings_only=True) } for choice_value, choice_name in field.choices.items()] if hasattr(serializer, 'included_serializers' ) and 'relationship_resource' in field_info: field_info[ 'allows_include'] = field.field_name in serializer.included_serializers return field_info
# convert a serializer to a JSON Schema. from rest_framework import serializers from rest_framework.utils.field_mapping import ClassLookupDict field_to_converter = ClassLookupDict({}) def converter(converter_class): """Decorator to register a converter class""" if isinstance(converter_class.field_class, list): field_classes = converter_class.field_class else: field_classes = [converter_class.field_class] for field_class in field_classes: field_to_converter[field_class] = converter_class() return converter_class def field_to_jsonschema(field): if isinstance(field, serializers.Serializer): result = to_jsonschema(field) else: converter = field_to_converter[field] result = converter.convert(field) if field.label: result['title'] = field.label if field.help_text: result['description'] = field.help_text return result
class HTMLFormRenderer(BaseRenderer): """ Renderers serializer data into an HTML form. If the serializer was instantiated without an object then this will return an HTML form not bound to any object, otherwise it will return an HTML form with the appropriate initial data populated from the object. Note that rendering of field and form errors is not currently supported. """ media_type = "text/html" format = "form" charset = "utf-8" template_pack = "rest_framework/vertical/" base_template = "form.html" default_style = ClassLookupDict({ serializers.Field: { "base_template": "input.html", "input_type": "text" }, serializers.EmailField: { "base_template": "input.html", "input_type": "email", }, serializers.URLField: { "base_template": "input.html", "input_type": "url" }, serializers.IntegerField: { "base_template": "input.html", "input_type": "number", }, serializers.FloatField: { "base_template": "input.html", "input_type": "number", }, serializers.DateTimeField: { "base_template": "input.html", "input_type": "datetime-local", }, serializers.DateField: { "base_template": "input.html", "input_type": "date", }, serializers.TimeField: { "base_template": "input.html", "input_type": "time", }, serializers.FileField: { "base_template": "input.html", "input_type": "file", }, serializers.BooleanField: { "base_template": "checkbox.html" }, serializers.ChoiceField: { "base_template": "select.html", # Also valid: 'radio.html' }, serializers.MultipleChoiceField: { "base_template": "select_multiple.html", # Also valid: 'checkbox_multiple.html' }, serializers.RelatedField: { "base_template": "select.html", # Also valid: 'radio.html' }, serializers.ManyRelatedField: { "base_template": "select_multiple.html", # Also valid: 'checkbox_multiple.html' }, serializers.Serializer: { "base_template": "fieldset.html" }, serializers.ListSerializer: { "base_template": "list_fieldset.html" }, serializers.ListField: { "base_template": "list_field.html" }, serializers.DictField: { "base_template": "dict_field.html" }, serializers.FilePathField: { "base_template": "select.html", }, serializers.JSONField: { "base_template": "textarea.html", }, }) def render_field(self, field, parent_style): if isinstance(field._field, serializers.HiddenField): return "" style = self.default_style[field].copy() style.update(field.style) if "template_pack" not in style: style["template_pack"] = parent_style.get("template_pack", self.template_pack) style["renderer"] = self # Get a clone of the field with text-only value representation. field = field.as_form_field() if style.get("input_type") == "datetime-local" and isinstance( field.value, str): field.value = field.value.rstrip("Z") if "template" in style: template_name = style["template"] else: template_name = (style["template_pack"].strip("/") + "/" + style["base_template"]) template = loader.get_template(template_name) context = {"field": field, "style": style} return template.render(context) def render(self, data, accepted_media_type=None, renderer_context=None): """ Render serializer data and return an HTML form, as a string. """ renderer_context = renderer_context or {} form = data.serializer style = renderer_context.get("style", {}) if "template_pack" not in style: style["template_pack"] = self.template_pack style["renderer"] = self template_pack = style["template_pack"].strip("/") template_name = template_pack + "/" + self.base_template template = loader.get_template(template_name) context = {"form": form, "style": style} return template.render(context)
class SimpleMetadata(BaseMetadata): """ This is the default metadata implementation. It returns an ad-hoc set of information about the view. There are not any formalized standards for `OPTIONS` responses for us to base this on. """ label_lookup = ClassLookupDict({ serializers.Field: 'field', serializers.BooleanField: 'boolean', serializers.NullBooleanField: 'boolean', serializers.CharField: 'string', serializers.UUIDField: 'string', serializers.URLField: 'url', serializers.EmailField: 'email', serializers.RegexField: 'regex', serializers.SlugField: 'slug', serializers.IntegerField: 'integer', serializers.FloatField: 'float', serializers.DecimalField: 'decimal', serializers.DateField: 'date', serializers.DateTimeField: 'datetime', serializers.TimeField: 'time', serializers.ChoiceField: 'choice', serializers.MultipleChoiceField: 'multiple choice', serializers.FileField: 'file upload', serializers.ImageField: 'image upload', serializers.ListField: 'list', serializers.DictField: 'nested object', serializers.Serializer: 'nested object', }) def determine_metadata(self, request, view): metadata = OrderedDict() metadata['name'] = view.get_view_name() metadata['description'] = view.get_view_description() metadata['renders'] = [ renderer.media_type for renderer in view.renderer_classes ] metadata['parses'] = [ parser.media_type for parser in view.parser_classes ] if hasattr(view, 'get_serializer'): actions = self.determine_actions(request, view) if actions: metadata['actions'] = actions return metadata def determine_actions(self, request, view): """ For generic class based views we return information about the fields that are accepted for 'PUT' and 'POST' methods. """ actions = {} for method in {'PUT', 'POST'} & set(view.allowed_methods): view.request = clone_request(request, method) try: # Test global permissions if hasattr(view, 'check_permissions'): view.check_permissions(view.request) # Test object permissions if method == 'PUT' and hasattr(view, 'get_object'): view.get_object() except (exceptions.APIException, PermissionDenied, Http404): pass else: # If user has appropriate permissions for the view, include # appropriate metadata about the fields that should be supplied. serializer = view.get_serializer() actions[method] = self.get_serializer_info(serializer) finally: view.request = request return actions def get_serializer_info(self, serializer): """ Given an instance of a serializer, return a dictionary of metadata about its fields. """ if hasattr(serializer, 'child'): # If this is a `ListSerializer` then we want to examine the # underlying child serializer instance instead. serializer = serializer.child return OrderedDict([(field_name, self.get_field_info(field)) for field_name, field in serializer.fields.items() ]) def get_field_info(self, field): """ Given an instance of a serializer field, return a dictionary of metadata about it. """ field_info = OrderedDict() field_info['type'] = self.label_lookup[field] field_info['required'] = getattr(field, 'required', False) attrs = [ 'read_only', 'label', 'help_text', 'min_length', 'max_length', 'min_value', 'max_value' ] for attr in attrs: value = getattr(field, attr, None) if value is not None and value != '': field_info[attr] = force_text(value, strings_only=True) if getattr(field, 'child', None): field_info['child'] = self.get_field_info(field.child) elif getattr(field, 'fields', None): field_info['children'] = self.get_serializer_info(field) if (not field_info.get('read_only') and not isinstance( field, (serializers.RelatedField, serializers.ManyRelatedField)) and hasattr(field, 'choices')): field_info['choices'] = [{ 'value': choice_value, 'display_name': force_text(choice_name, strings_only=True) } for choice_value, choice_name in field.choices.items()] return field_info
class VueTableMetadata(BaseMetadata): """ This is the default metadata implementation. It returns an ad-hoc set of information about the view. There are not any formalized standards for `OPTIONS` responses for us to base this on. """ style_class = Style label_lookup = ClassLookupDict({ serializers.Field: 'field', serializers.BooleanField: 'boolean', serializers.NullBooleanField: 'boolean', serializers.CharField: 'string', serializers.UUIDField: 'string', serializers.URLField: 'url', serializers.EmailField: 'email', serializers.RegexField: 'regex', serializers.SlugField: 'slug', serializers.IntegerField: 'integer', serializers.FloatField: 'float', serializers.DecimalField: 'decimal', serializers.DateField: 'date', serializers.DateTimeField: 'datetime', serializers.TimeField: 'time', serializers.ChoiceField: 'choice', serializers.MultipleChoiceField: 'multiple choice', serializers.FileField: 'file upload', serializers.ImageField: 'image upload', serializers.ListField: 'list', serializers.DictField: 'nested object', serializers.Serializer: 'nested object', }) search_type_lookup = ClassLookupDict({ serializers.Field: 'input', serializers.BooleanField: 'select', serializers.NullBooleanField: 'select', serializers.IntegerField: 'num', serializers.FloatField: 'input', serializers.DecimalField: 'input', serializers.DateField: 'date', serializers.DateTimeField: 'date', serializers.TimeField: 'date', serializers.ChoiceField: 'select', serializers.MultipleChoiceField: 'select', }) def determine_metadata(self, request, view): metadata = dict() metadata['name'] = view.get_view_name() metadata['description'] = view.get_view_description() metadata['renders'] = [ renderer.media_type for renderer in view.renderer_classes ] metadata['parses'] = [ parser.media_type for parser in view.parser_classes ] if hasattr(view, 'get_serializer'): actions = self.determine_actions(request, view) if actions: metadata['actions'] = actions return metadata def determine_actions(self, request, view): """ For generic class based views we return information about the fields that are accepted for 'PUT' and 'POST' methods. """ setattr(self, "request", request) setattr(self, "view", view) actions = {} action_names = [] extra_actions = view.get_extra_actions() extra_action_names = [ act.mapping['get'] for act in extra_actions if 'get' in act.mapping and act.mapping['get'] not in ("export", "meta") ] if 'get' in view.action_map: action_names = [view.action_map["get"]] + extra_action_names for action in action_names: actions[action] = dict() origin_action = view.action view.action = action serializer = view.get_serializer() actions[action]["meta"] = self.get_serializer_meta( view, serializer) actions[action]["columns"] = self.get_serializer_info(serializer) view.action = origin_action # TODO check permissions # for method in {'GET'} & set(view.allowed_methods): # view.request = clone_request(request, method) # try: # # Test global permissions # if hasattr(view, 'check_permissions'): # view.check_permissions(view.request) # except (exceptions.APIException, PermissionDenied, Http404): # pass # else: # # If user has appropriate permissions for the view, include # # appropriate metadata about the fields that should be supplied. # serializer = view.get_serializer() # actions[method] = self.get_serializer_info(serializer) # finally: # view.request = request return actions def get_serializer_meta(self, view, serializer): """ :param view: [description] :type view: [type] :param serializer: [description] :type serializer: [type] """ table_meta = getattr(view, "table_meta", {}) data_field_name = table_meta.get('data_field') data_field = serializer.fields.get(data_field_name) if data_field and hasattr(data_field, "child"): table_meta['fields'] = self.get_serializer_info(data_field.child) return table_meta def get_serializer_info(self, serializer): """ Given an instance of a serializer, return a dictionary of metadata about its fields. """ if hasattr(serializer, 'child'): # If this is a `ListSerializer` then we want to examine the # underlying child serializer instance instead. serializer = serializer.child return [ self.get_field_style(field) for field_name, field in serializer.fields.items() if not isinstance(field, serializers.HiddenField) and not field.write_only ] def get_field_style(self, field, sub_table=True): """ Given an instance of a serializer field, return a dictionary of metadata about it. """ # validate style if isinstance(field.style, dict): copy_style = copy.deepcopy(field.style) style = self.style_class(**copy_style) elif isinstance(field.style, self.style_class): style = field.style else: raise ValueError("Unsupported style type.") style.field = field.field_name style.title = field.label if isinstance(field, (ChoiceField, MultipleChoiceField)) and field.choices: style.cellRender = to_table_choices(field.choices) return style.dict(exclude_none=True)
class SimpleMetadata(BaseMetadata): """ This is the default metadata implementation. It returns an ad-hoc set of information about the view. There are not any formalized standards for `OPTIONS` responses for us to base this on. """ label_lookup = ClassLookupDict( { serializers.Field: "field", serializers.BooleanField: "boolean", serializers.NullBooleanField: "boolean", serializers.CharField: "string", serializers.UUIDField: "string", serializers.URLField: "url", serializers.EmailField: "email", serializers.RegexField: "regex", serializers.SlugField: "slug", serializers.IntegerField: "integer", serializers.FloatField: "float", serializers.DecimalField: "decimal", serializers.DateField: "date", serializers.DateTimeField: "datetime", serializers.TimeField: "time", serializers.ChoiceField: "choice", serializers.MultipleChoiceField: "multiple choice", serializers.FileField: "file upload", serializers.ImageField: "image upload", serializers.ListField: "list", serializers.DictField: "nested object", serializers.Serializer: "nested object", } ) def determine_metadata(self, request, view): metadata = OrderedDict() metadata["name"] = view.get_view_name() metadata["description"] = view.get_view_description() metadata["renders"] = [ renderer.media_type for renderer in view.renderer_classes ] metadata["parses"] = [parser.media_type for parser in view.parser_classes] if hasattr(view, "get_serializer"): actions = self.determine_actions(request, view) if actions: metadata["actions"] = actions return metadata def determine_actions(self, request, view): """ For generic class based views we return information about the fields that are accepted for 'PUT' and 'POST' methods. """ actions = {} for method in {"PUT", "POST"} & set(view.allowed_methods): view.request = clone_request(request, method) try: # Test global permissions if hasattr(view, "check_permissions"): view.check_permissions(view.request) # Test object permissions if method == "PUT" and hasattr(view, "get_object"): view.get_object() except (exceptions.APIException, PermissionDenied, Http404): pass else: # If user has appropriate permissions for the view, include # appropriate metadata about the fields that should be supplied. serializer = view.get_serializer() actions[method] = self.get_serializer_info(serializer) finally: view.request = request return actions def get_serializer_info(self, serializer): """ Given an instance of a serializer, return a dictionary of metadata about its fields. """ if hasattr(serializer, "child"): # If this is a `ListSerializer` then we want to examine the # underlying child serializer instance instead. serializer = serializer.child return OrderedDict( [ (field_name, self.get_field_info(field)) for field_name, field in serializer.fields.items() if not isinstance(field, serializers.HiddenField) ] ) def get_field_info(self, field): """ Given an instance of a serializer field, return a dictionary of metadata about it. """ field_info = OrderedDict() field_info["type"] = self.label_lookup[field] field_info["required"] = getattr(field, "required", False) attrs = [ "read_only", "label", "help_text", "min_length", "max_length", "min_value", "max_value", ] for attr in attrs: value = getattr(field, attr, None) if value is not None and value != "": field_info[attr] = force_str(value, strings_only=True) if getattr(field, "child", None): field_info["child"] = self.get_field_info(field.child) elif getattr(field, "fields", None): field_info["children"] = self.get_serializer_info(field) if ( not field_info.get("read_only") and not isinstance( field, (serializers.RelatedField, serializers.ManyRelatedField) ) and hasattr(field, "choices") ): field_info["choices"] = [ { "value": choice_value, "display_name": force_str(choice_name, strings_only=True), } for choice_value, choice_name in field.choices.items() ] return field_info
FILTER_FOR_SERIALIZER_FIELD_DEFAULTS = ClassLookupDict( { serializers.IntegerField: {'filter_class': ExtendedNumberFilter}, serializers.DateField: {'filter_class': ExtendedDateFromToRangeFilter}, serializers.DateTimeField: {'filter_class': ExtendedDateFromToRangeFilter}, serializers.TimeField: {'filter_class': TimeFilter}, serializers.DecimalField: {'filter_class': ExtendedNumberFilter}, serializers.FloatField: {'filter_class': ExtendedNumberFilter}, serializers.BooleanField: {'filter_class': BooleanFilter}, serializers.EmailField: {'filter_class': CharFilter}, serializers.FileField: {'filter_class': CharFilter}, serializers.URLField: {'filter_class': CharFilter}, serializers.UUIDField: {'filter_class': UUIDFilter}, serializers.PrimaryKeyRelatedField: { 'filter_class': ExtendedModelMultipleChoiceFilter, 'extra': lambda f: {"queryset": f.queryset, "distinct": False}, }, serializers.SlugRelatedField: { 'filter_class': ExtendedModelMultipleChoiceFilter, 'extra': lambda f: {"queryset": f.queryset, "to_field_name": f.slug_field, "distinct": False}, }, serializers.ManyRelatedField: { 'filter_class': ExtendedModelMultipleChoiceFilter, 'extra': lambda f: {"queryset": f.child_relation.queryset}, }, serializers.RelatedField: {'filter_class': MultipleSelectFilter}, serializers.JSONField: {'filter_class': CharFilter, 'extra': lambda f: {"lookup_expr": "icontains"}}, serializers.ListField: {'filter_class': CharFilter, 'extra': lambda f: {"lookup_expr": "contains"}}, IsNotNullField: {'filter_class': IsNotNullFilter}, IsNullField: {'filter_class': IsNullFilter}, serializers.ReadOnlyField: {'filter_class': CharFilter}, DisplayChoiceField: { 'filter_class': ExtendedDisplayMultipleChoiceFilter, 'extra': lambda f: {"choices": list(f.choices.items()), 'distinct': False}, }, serializers.ChoiceField: { 'filter_class': ExtendedMultipleChoiceFilter, 'extra': lambda f: {"choices": list(f.choices.items()), "distinct": False}, }, serializers.CharField: {'filter_class': ExtendedCharFilter}, } )
class HaystackSerializer( six.with_metaclass(HaystackSerializerMeta, serializers.Serializer)): """ A `HaystackSerializer` which populates fields based on which models that are available in the SearchQueryset. """ _abstract = True _field_mapping = ClassLookupDict({ haystack_fields.BooleanField: HaystackBooleanField, haystack_fields.CharField: HaystackCharField, haystack_fields.DateField: HaystackDateField, haystack_fields.DateTimeField: HaystackDateTimeField, haystack_fields.DecimalField: HaystackDecimalField, haystack_fields.EdgeNgramField: HaystackCharField, haystack_fields.FacetBooleanField: HaystackBooleanField, haystack_fields.FacetCharField: HaystackCharField, haystack_fields.FacetDateField: HaystackDateField, haystack_fields.FacetDateTimeField: HaystackDateTimeField, haystack_fields.FacetDecimalField: HaystackDecimalField, haystack_fields.FacetFloatField: HaystackFloatField, haystack_fields.FacetIntegerField: HaystackIntegerField, haystack_fields.FacetMultiValueField: HaystackMultiValueField, haystack_fields.FloatField: HaystackFloatField, haystack_fields.IntegerField: HaystackIntegerField, haystack_fields.LocationField: HaystackCharField, haystack_fields.MultiValueField: HaystackMultiValueField, haystack_fields.NgramField: HaystackCharField, }) def __init__(self, instance=None, data=empty, **kwargs): super(HaystackSerializer, self).__init__(instance, data, **kwargs) if not self.Meta.index_classes and not self.Meta.serializers: raise ImproperlyConfigured( "You must set either the 'index_classes' or 'serializers' " "attribute on the serializer Meta class.") if not self.instance: self.instance = EmptySearchQuerySet() @staticmethod def _get_default_field_kwargs(model, field): """ Get the required attributes from the model field in order to instantiate a REST Framework serializer field. """ kwargs = {} if field.model_attr in model._meta.get_fields(): model_field = model._meta.get_field(field.model_attr)[0] kwargs = get_field_kwargs(field.model_attr, model_field) # Remove stuff we don't care about! delete_attrs = [ "allow_blank", "choices", "model_field", ] for attr in delete_attrs: if attr in kwargs: del kwargs[attr] return kwargs def _get_index_field(self, field_name): """ Returns the correct index field. """ return field_name def _get_index_class_name(self, index_cls): """ Converts in index model class to a name suitable for use as a field name prefix. A user may optionally specify custom aliases via an 'index_aliases' attribute on the Meta class """ cls_name = index_cls.__name__ aliases = self.Meta.index_aliases return aliases.get(cls_name, cls_name.split('.')[-1]) def get_fields(self): """ Get the required fields for serializing the result. """ fields = self.Meta.fields exclude = self.Meta.exclude ignore_fields = self.Meta.ignore_fields indices = self.Meta.index_classes declared_fields = copy.deepcopy(self._declared_fields) prefix_field_names = len(indices) > 1 field_mapping = OrderedDict() # overlapping fields on multiple indices is supported by internally prefixing the field # names with the index class to which they belong or, optionally, a user-provided alias # for the index. for index_cls in self.Meta.index_classes: prefix = "" if prefix_field_names: prefix = "_%s__" % self._get_index_class_name(index_cls) for field_name, field_type in six.iteritems(index_cls.fields): orig_name = field_name field_name = "%s%s" % (prefix, field_name) # Don't use this field if it is in `ignore_fields` if orig_name in ignore_fields or field_name in ignore_fields: continue # When fields to include are decided by `exclude` if exclude: if orig_name in exclude or field_name in exclude: continue # When fields to include are decided by `fields` if fields: if orig_name not in fields and field_name not in fields: continue # Look up the field attributes on the current index model, # in order to correctly instantiate the serializer field. model = index_cls().get_model() kwargs = self._get_default_field_kwargs(model, field_type) kwargs['prefix_field_names'] = prefix_field_names field_mapping[field_name] = self._field_mapping[field_type]( **kwargs) # Add any explicitly declared fields. They *will* override any index fields # in case of naming collision!. if declared_fields: for field_name in declared_fields: field_mapping[field_name] = declared_fields[field_name] return field_mapping def to_representation(self, instance): """ If we have a serializer mapping, use that. Otherwise, use standard serializer behavior Since we might be dealing with multiple indexes, some fields might not be valid for all results. Do not render the fields which don't belong to the search result. """ if self.Meta.serializers: ret = self.multi_serializer_representation(instance) else: ret = super(HaystackSerializer, self).to_representation(instance) prefix_field_names = len(getattr(self.Meta, "index_classes")) > 1 current_index = self._get_index_class_name( type(instance.searchindex)) for field in self.fields.keys(): orig_field = field if prefix_field_names: parts = field.split("__") if len(parts) > 1: index = parts[0][1:] # trim the preceding '_' field = parts[1] if index == current_index: ret[field] = ret[orig_field] del ret[orig_field] elif field not in chain(instance.searchindex.fields.keys(), self._declared_fields.keys()): del ret[orig_field] # include the highlighted field in either case if getattr(instance, "highlighted", None): ret["highlighted"] = instance.highlighted[0] return ret def multi_serializer_representation(self, instance): serializers = self.Meta.serializers index = instance.searchindex serializer_class = serializers.get(type(index), None) if not serializer_class: raise ImproperlyConfigured( "Could not find serializer for %s in mapping" % index) return serializer_class( context=self._context).to_representation(instance)
default_style = ClassLookupDict({ serializers.Field: { 'tag': 'input', 'input_type': 'text' }, serializers.EmailField: { 'tag': 'input', 'input_type': 'email' }, serializers.URLField: { 'tag': 'input', 'input_type': 'url' }, serializers.IntegerField: { 'tag': 'input', 'input_type': 'number' }, serializers.FloatField: { 'tag': 'input', 'input_type': 'number' }, serializers.DateTimeField: { 'tag': 'input', 'input_type': 'datetime-local' }, serializers.DateField: { 'tag': 'input', 'input_type': 'date' }, serializers.TimeField: { 'tag': 'input', 'input_type': 'time' }, serializers.FileField: { 'tag': 'input', 'input_type': 'file' }, serializers.BooleanField: { 'tag': 'checkbox' }, serializers.ChoiceField: { 'tag': 'select', # Also valid: 'radio' }, serializers.MultipleChoiceField: { 'tag': 'select_multiple', # Also valid: 'checkbox_multiple' }, serializers.RelatedField: { 'tag': 'select', # Also valid: 'radio' }, serializers.ManyRelatedField: { 'tag': 'select multiple', # Also valid: 'checkbox_multiple' }, serializers.Serializer: { 'tag': 'fieldset' }, serializers.ListSerializer: { 'tag': 'list_fieldset' }, serializers.ListField: { 'tag': 'list_field' }, serializers.DictField: { 'tag': 'dict_field' }, serializers.FilePathField: { 'tag': 'input', 'input_type': 'file', }, serializers.JSONField: { 'tag': 'textarea', }, })
class HTMLFormRenderer(BaseRenderer): """ Renderers serializer data into an HTML form. If the serializer was instantiated without an object then this will return an HTML form not bound to any object, otherwise it will return an HTML form with the appropriate initial data populated from the object. Note that rendering of field and form errors is not currently supported. """ media_type = 'text/html' format = 'form' charset = 'utf-8' template_pack = 'rest_framework/vertical/' base_template = 'form.html' default_style = ClassLookupDict({ serializers.Field: { 'base_template': 'input.html', 'input_type': 'text' }, serializers.EmailField: { 'base_template': 'input.html', 'input_type': 'email' }, serializers.URLField: { 'base_template': 'input.html', 'input_type': 'url' }, serializers.IntegerField: { 'base_template': 'input.html', 'input_type': 'number' }, serializers.FloatField: { 'base_template': 'input.html', 'input_type': 'number' }, serializers.DateTimeField: { 'base_template': 'input.html', 'input_type': 'datetime-local' }, serializers.DateField: { 'base_template': 'input.html', 'input_type': 'date' }, serializers.TimeField: { 'base_template': 'input.html', 'input_type': 'time' }, serializers.FileField: { 'base_template': 'input.html', 'input_type': 'file' }, serializers.BooleanField: { 'base_template': 'checkbox.html' }, serializers.ChoiceField: { 'base_template': 'select.html', # Also valid: 'radio.html' }, serializers.MultipleChoiceField: { 'base_template': 'select_multiple.html', # Also valid: 'checkbox_multiple.html' }, serializers.RelatedField: { 'base_template': 'select.html', # Also valid: 'radio.html' }, serializers.ManyRelatedField: { 'base_template': 'select_multiple.html', # Also valid: 'checkbox_multiple.html' }, serializers.Serializer: { 'base_template': 'fieldset.html' }, serializers.ListSerializer: { 'base_template': 'list_fieldset.html' }, serializers.ListField: { 'base_template': 'list_field.html' }, serializers.DictField: { 'base_template': 'dict_field.html' }, serializers.FilePathField: { 'base_template': 'select.html', }, serializers.JSONField: { 'base_template': 'textarea.html', }, }) def render_field(self, field, parent_style): if isinstance(field._field, serializers.HiddenField): return '' style = dict(self.default_style[field]) style.update(field.style) if 'template_pack' not in style: style['template_pack'] = parent_style.get('template_pack', self.template_pack) style['renderer'] = self # Get a clone of the field with text-only value representation. field = field.as_form_field() if style.get('input_type') == 'datetime-local' and isinstance( field.value, str): field.value = field.value.rstrip('Z') if 'template' in style: template_name = style['template'] else: template_name = style['template_pack'].strip( '/') + '/' + style['base_template'] template = loader.get_template(template_name) context = {'field': field, 'style': style} return template.render(context) def render(self, data, accepted_media_type=None, renderer_context=None): """ Render serializer data and return an HTML form, as a string. """ renderer_context = renderer_context or {} form = data.serializer style = renderer_context.get('style', {}) if 'template_pack' not in style: style['template_pack'] = self.template_pack style['renderer'] = self template_pack = style['template_pack'].strip('/') template_name = template_pack + '/' + self.base_template template = loader.get_template(template_name) context = {'form': form, 'style': style} return template.render(context)
class Metadata(BaseMetadata): label_lookup = ClassLookupDict( { serializers.Field: "field", serializers.BooleanField: "boolean", serializers.NullBooleanField: "boolean", serializers.CharField: "string", serializers.URLField: "url", serializers.EmailField: "email", serializers.RegexField: "regex", serializers.SlugField: "slug", serializers.IntegerField: "integer", serializers.FloatField: "float", serializers.DecimalField: "decimal", serializers.DateField: "date", serializers.DateTimeField: "date", serializers.TimeField: "time", serializers.ChoiceField: "choice", serializers.MultipleChoiceField: "multiple choice", serializers.FileField: "file upload", serializers.ImageField: "image upload", serializers.ListField: "list", serializers.DictField: "nested object", serializers.Serializer: "nested object", serializers.ManyRelatedField: "multiple choice", serializers.HiddenField: "hidden", PasswordField: "password", ModelMultipleChoiceField: "multiple choice", TextField: "textarea", EntityText: "entity text", } ) def determine_metadata(self, request, view): # pragma: no cover metadata = OrderedDict() metadata["name"] = view.get_view_name() metadata["description"] = view.get_view_description() metadata["renders"] = [ renderer.media_type for renderer in view.renderer_classes ] metadata["parses"] = [parser.media_type for parser in view.parser_classes] if hasattr(view, "get_serializer"): actions = self.determine_actions(request, view) if actions: metadata["actions"] = actions return metadata def determine_actions(self, request, view): # pragma: no cover actions = {} for method in {"PUT", "POST"} & set(view.allowed_methods): serializer = view.get_serializer() actions[method] = self.get_serializer_info(serializer) view.request = request return actions def get_serializer_info(self, serializer): # pragma: no cover if hasattr(serializer, "child"): serializer = serializer.child return OrderedDict( [ (field_name, self.get_field_info(field)) for field_name, field in serializer.fields.items() ] ) def get_field_info(self, field): # pragma: no cover field_info = OrderedDict() field_info["type"] = self.label_lookup[field] or "field" field_info["required"] = getattr(field, "required", False) attrs = [ "read_only", "label", "help_text", "min_length", "max_length", "min_value", "max_value", "style", ] for attr in attrs: value = getattr(field, attr, None) if value is not None and value != "": field_info[attr] = ( value if isinstance(value, dict) else force_text(value, strings_only=True) ) if isinstance(field, ModelMultipleChoiceField): field_info["choices"] = [ { "value": choice_value, "display_name": force_text(choice_name, strings_only=True), } for choice_value, choice_name in field.choices.items() ] if getattr(field, "child", None): field_info["child"] = self.get_field_info(field.child) elif getattr(field, "fields", None): field_info["children"] = self.get_serializer_info(field) if not field_info.get("read_only") and hasattr(field, "choices"): field_info["choices"] = [ { "value": choice_value, "display_name": force_text(choice_name, strings_only=True), } for choice_value, choice_name in field.choices.items() ] return field_info
class HTMLFormRenderer(BaseRenderer): """ Renderers serializer data into an HTML form. If the serializer was instantiated without an object then this will return an HTML form not bound to any object, otherwise it will return an HTML form with the appropriate initial data populated from the object. Note that rendering of field and form errors is not currently supported. """ media_type = 'text/html' format = 'form' charset = 'utf-8' template_pack = 'rest_framework/horizontal/' base_template = 'form.html' default_style = ClassLookupDict({ serializers.Field: { 'base_template': 'input.html', 'input_type': 'text' }, serializers.EmailField: { 'base_template': 'input.html', 'input_type': 'email' }, serializers.URLField: { 'base_template': 'input.html', 'input_type': 'url' }, serializers.IntegerField: { 'base_template': 'input.html', 'input_type': 'number' }, serializers.DateTimeField: { 'base_template': 'input.html', 'input_type': 'datetime-local' }, serializers.DateField: { 'base_template': 'input.html', 'input_type': 'date' }, serializers.TimeField: { 'base_template': 'input.html', 'input_type': 'time' }, serializers.FileField: { 'base_template': 'input.html', 'input_type': 'file' }, serializers.BooleanField: { 'base_template': 'checkbox.html' }, serializers.ChoiceField: { 'base_template': 'select.html', # Also valid: 'radio.html' }, serializers.MultipleChoiceField: { 'base_template': 'select_multiple.html', # Also valid: 'checkbox_multiple.html' }, serializers.RelatedField: { 'base_template': 'select.html', # Also valid: 'radio.html' }, serializers.ManyRelatedField: { 'base_template': 'select_multiple.html', # Also valid: 'checkbox_multiple.html' }, serializers.Serializer: { 'base_template': 'fieldset.html' }, serializers.ListSerializer: { 'base_template': 'list_fieldset.html' } }) def render_field(self, field, parent_style): if isinstance(field._field, serializers.HiddenField): return '' style = dict(self.default_style[field]) style.update(field.style) if 'template_pack' not in style: style['template_pack'] = parent_style.get('template_pack', self.template_pack) style['renderer'] = self if style.get('input_type') == 'datetime-local' and isinstance( field.value, six.text_type): field.value = field.value.rstrip('Z') if 'template' in style: template_name = style['template'] else: template_name = style['template_pack'].strip( '/') + '/' + style['base_template'] template = loader.get_template(template_name) context = Context({'field': field, 'style': style}) return template.render(context) def render(self, data, accepted_media_type=None, renderer_context=None): """ Render serializer data and return an HTML form, as a string. """ form = data.serializer meta = getattr(form, 'Meta', None) style = getattr(meta, 'style', {}) if 'template_pack' not in style: style['template_pack'] = self.template_pack if 'base_template' not in style: style['base_template'] = self.base_template style['renderer'] = self # This API needs to be finessed and finalized for 3.1 if 'template' in renderer_context: template_name = renderer_context['template'] elif 'template' in style: template_name = style['template'] else: template_name = style['template_pack'].strip( '/') + '/' + style['base_template'] renderer_context = renderer_context or {} request = renderer_context['request'] template = loader.get_template(template_name) context = RequestContext(request, {'form': form, 'style': style}) return template.render(context)
class Metadata(BaseMetadata): label_lookup = ClassLookupDict({ serializers.Field: 'field', serializers.BooleanField: 'boolean', serializers.NullBooleanField: 'boolean', serializers.CharField: 'string', serializers.URLField: 'url', serializers.EmailField: 'email', serializers.RegexField: 'regex', serializers.SlugField: 'slug', serializers.IntegerField: 'integer', serializers.FloatField: 'float', serializers.DecimalField: 'decimal', serializers.DateField: 'date', serializers.DateTimeField: 'datetime', serializers.TimeField: 'time', serializers.ChoiceField: 'choice', serializers.MultipleChoiceField: 'multiple choice', serializers.FileField: 'file upload', serializers.ImageField: 'image upload', serializers.ListField: 'list', serializers.DictField: 'nested object', serializers.Serializer: 'nested object', serializers.ManyRelatedField: 'multiple choice', }) def determine_metadata(self, request, view): metadata = OrderedDict() metadata['name'] = view.get_view_name() metadata['description'] = view.get_view_description() metadata['renders'] = [ renderer.media_type for renderer in view.renderer_classes ] metadata['parses'] = [ parser.media_type for parser in view.parser_classes ] if hasattr(view, 'get_serializer'): actions = self.determine_actions(request, view) if actions: metadata['actions'] = actions return metadata def determine_actions(self, request, view): actions = {} for method in ['PUT', 'POST']: serializer = view.get_serializer() actions[method] = self.get_serializer_info(serializer) view.request = request return actions def get_serializer_info(self, serializer): if hasattr(serializer, 'child'): serializer = serializer.child return OrderedDict([(field_name, self.get_field_info(field)) for field_name, field in serializer.fields.items() ]) def get_field_info(self, field): field_info = OrderedDict() field_info['type'] = self.label_lookup[field] or 'field' field_info['required'] = getattr(field, 'required', False) attrs = [ 'read_only', 'label', 'help_text', 'min_length', 'max_length', 'min_value', 'max_value', 'style', ] for attr in attrs: value = getattr(field, attr, None) if value is not None and value != '': field_info[attr] = value if isinstance( value, dict, ) else force_text( value, strings_only=True, ) if getattr(field, 'child', None): field_info['child'] = self.get_field_info(field.child) elif getattr(field, 'fields', None): field_info['children'] = self.get_serializer_info(field) if (not field_info.get('read_only') and hasattr(field, 'choices')): field_info['choices'] = [{ 'value': choice_value, 'display_name': force_text(choice_name, strings_only=True) } for choice_value, choice_name in field.choices.items()] return field_info