diff --git a/rest_framework/serializers.py b/rest_framework/serializers.py index 80ad10f0a..a983d3fc7 100644 --- a/rest_framework/serializers.py +++ b/rest_framework/serializers.py @@ -696,7 +696,7 @@ class ModelSerializer(Serializer): you need you should either declare the extra/differing fields explicitly on the serializer class, or simply use a `Serializer` class. """ - _field_mapping = ClassLookupDict({ + serializer_field_mapping = { models.AutoField: IntegerField, models.BigIntegerField: IntegerField, models.BooleanField: BooleanField, @@ -719,8 +719,8 @@ class ModelSerializer(Serializer): models.TextField: CharField, models.TimeField: TimeField, models.URLField: URLField, - }) - _related_class = PrimaryKeyRelatedField + } + serializer_related_class = PrimaryKeyRelatedField # Default `create` and `update` behavior... @@ -793,6 +793,417 @@ class ModelSerializer(Serializer): return instance + # Determine the fields to apply... + + def get_fields(self): + """ + Return the dict of field names -> field instances that should be + used for `self.fields` when instantiating the serializer. + """ + declared_fields = copy.deepcopy(self._declared_fields) + model = getattr(self.Meta, 'model') + depth = getattr(self.Meta, 'depth', 0) + + # Retrieve metadata about fields & relationships on the model class. + info = model_meta.get_field_info(model) + field_names = self.get_field_names(declared_fields, info) + + # Determine any extra field arguments and hidden fields that + # should be included + extra_kwargs = self.get_extra_kwargs() + extra_kwargs, hidden_fields = self.get_uniqueness_extra_kwargs( + field_names, declared_fields, extra_kwargs + ) + + # Now determine the fields that should be included on the serializer. + ret = OrderedDict() + for field_name in field_names: + if field_name in declared_fields: + # Field is explicitly declared on the class, use that. + ret[field_name] = declared_fields[field_name] + continue + + # Determine the serializer field class and keyword arguments. + field_cls, kwargs = self.build_field(field_name, info, model, depth) + + # Populate any kwargs defined in `Meta.extra_kwargs` + kwargs = self.build_field_kwargs(kwargs, extra_kwargs, field_name) + + # Create the serializer field. + ret[field_name] = field_cls(**kwargs) + + # Add in any hidden fields. + ret.update(hidden_fields) + + return ret + + # Methods for determining the set of field names to include... + + def get_field_names(self, declared_fields, info): + """ + Returns the list of all field names that should be created when + instantiating this serializer class. This is based on the default + set of fields, but also takes into account the `Meta.fields` or + `Meta.exclude` options if they have been specified. + """ + fields = getattr(self.Meta, 'fields', None) + exclude = getattr(self.Meta, 'exclude', None) + + if fields and not isinstance(fields, (list, tuple)): + raise TypeError( + 'The `fields` option must be a list or tuple. Got %s.' % + type(fields).__name__ + ) + + if exclude and not isinstance(exclude, (list, tuple)): + raise TypeError( + 'The `exclude` option must be a list or tuple. Got %s.' % + type(exclude).__name__ + ) + + assert not (fields and exclude), ( + "Cannot set both 'fields' and 'exclude' options on " + "serializer {serializer_class}.".format( + serializer_class=self.__class__.__name__ + ) + ) + + if fields is not None: + # Ensure that all declared fields have also been included in the + # `Meta.fields` option. + for field_name in declared_fields: + assert field_name in fields, ( + "The field '{field_name}' was declared on serializer " + "{serializer_class}, but has not been included in the " + "'fields' option.".format( + field_name=field_name, + serializer_class=self.__class__.__name__ + ) + ) + return fields + + # Use the default set of field names if `Meta.fields` is not specified. + fields = self.get_default_field_names(declared_fields, info) + + if exclude is not None: + # If `Meta.exclude` is included, then remove those fields. + for field_name in exclude: + assert field_name in fields, ( + "The field '{field_name}' was include on serializer " + "{serializer_class} in the 'exclude' option, but does " + "not match any model field.".format( + field_name=field_name, + serializer_class=self.__class__.__name__ + ) + ) + fields.remove(field_name) + + return fields + + def get_default_field_names(self, declared_fields, model_info): + """ + Return the default list of field names that will be used if the + `Meta.fields` option is not specified. + """ + return ( + [model_info.pk.name] + + list(declared_fields.keys()) + + list(model_info.fields.keys()) + + list(model_info.forward_relations.keys()) + ) + + # Methods for constructing serializer fields... + + def build_field(self, field_name, info, model, nested_depth): + """ + Return a two tuple of (cls, kwargs) to build a serializer field with. + """ + if field_name in info.fields_and_pk: + return self.build_standard_field(field_name, info, model) + + elif field_name in info.relations: + if not nested_depth: + return self.build_relational_field(field_name, info, model) + else: + return self.build_nested_field(field_name, info, model, nested_depth) + + elif hasattr(model, field_name): + return self.build_property_field(field_name, info, model) + + elif field_name == api_settings.URL_FIELD_NAME: + return self.build_url_field(field_name, info, model) + + return self.build_unknown_field(field_name, info, model) + + def build_standard_field(self, field_name, info, model): + """ + Create regular model fields. + """ + field_mapping = ClassLookupDict(self.serializer_field_mapping) + model_field = info.fields_and_pk[field_name] + + field_cls = 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) and not issubclass(field_cls, ChoiceField): + # `allow_blank` is only valid for textual fields. + kwargs.pop('allow_blank', None) + + return field_cls, kwargs + + def build_relational_field(self, field_name, info, model): + """ + Create fields for forward and reverse relationships. + """ + relation_info = info.relations[field_name] + + field_cls = self.serializer_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) + + return field_cls, kwargs + + def build_nested_field(self, field_name, info, model, nested_depth): + """ + Create nested fields for forward and reverse relationships. + """ + relation_info = info.relations[field_name] + + class NestedSerializer(ModelSerializer): + class Meta: + model = relation_info.related + depth = nested_depth - 1 + + field_cls = NestedSerializer + kwargs = get_nested_relation_kwargs(relation_info) + + return field_cls, kwargs + + def build_property_field(self, field_name, info, model): + """ + Create a read only field for model methods and properties. + """ + field_cls = ReadOnlyField + kwargs = {} + + return field_cls, kwargs + + def build_url_field(self, field_name, info, model): + """ + Create a field representing the object's own URL. + """ + field_cls = HyperlinkedIdentityField + kwargs = get_url_kwargs(model) + + return field_cls, kwargs + + def build_unknown_field(self, field_name, info, model): + """ + Raise an error on any unknown fields. + """ + raise ImproperlyConfigured( + 'Field name `%s` is not valid for model `%s`.' % + (field_name, model.__class__.__name__) + ) + + def build_field_kwargs(self, kwargs, extra_kwargs, field_name): + """ + Include an 'extra_kwargs' that have been included for this field, + possibly removing any incompatible existing keyword arguments. + """ + 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) + + return kwargs + + # Methods for determining additional keyword arguments to apply... + + def get_extra_kwargs(self): + """ + Return a dictionary mapping field names to a dictionary of + additional keyword arguments. + """ + extra_kwargs = getattr(self.Meta, '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={: {'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_uniqueness_extra_kwargs(self, field_names, declared_fields, extra_kwargs): + """ + Return any additional field options that need to be included as a + result of uniqueness constraints on the model. This is returned as + a two-tuple of: + + ('dict of updated extra kwargs', 'mapping of hidden fields') + """ + model = getattr(self.Meta, 'model') + model_fields = self._get_model_fields( + field_names, declared_fields, extra_kwargs + ) + + # 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. + unique_constraint_names = set() + + for model_field in model_fields.values(): + # 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(field_names).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. + hidden_fields = {} + uniqueness_extra_kwargs = {} + + for unique_constraint_name in unique_constraint_names: + # Get the model field that is referred 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_fields: + # The corresponding field is present in the serializer + if default is empty: + uniqueness_extra_kwargs[unique_constraint_name] = {'required': True} + else: + uniqueness_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) + + # Update `extra_kwargs` with any new options. + for key, value in uniqueness_extra_kwargs.items(): + if key in extra_kwargs: + extra_kwargs[key].update(value) + else: + extra_kwargs[key] = value + + return extra_kwargs, hidden_fields + + def _get_model_fields(self, field_names, declared_fields, extra_kwargs): + """ + Returns all the model fields that are being mapped to by fields + on the serializer class. + Returned as a dict of 'model field name' -> 'model field'. + Used internally by `get_uniqueness_field_options`. + """ + model = getattr(self.Meta, 'model') + model_fields = {} + + for field_name in field_names: + if field_name in declared_fields: + # If the field is declared on the serializer + field = declared_fields[field_name] + source = field.source or field_name + else: + try: + source = extra_kwargs[field_name]['source'] + except KeyError: + source = field_name + + if '.' in source or source == '*': + # Model fields will always have a simple source mapping, + # they can't be nested attribute lookups. + continue + + try: + model_fields[source] = model._meta.get_field(source) + except FieldDoesNotExist: + pass + + return model_fields + # Determine the validators to apply... def get_validators(self): @@ -882,361 +1293,6 @@ class ModelSerializer(Serializer): return validators - # Determine the fields to apply... - - def get_fields(self): - declared_fields = copy.deepcopy(self._declared_fields) - model = getattr(self.Meta, 'model') - depth = getattr(self.Meta, 'depth', 0) - - # Retrieve metadata about fields & relationships on the model class. - info = model_meta.get_field_info(model) - field_names = self.get_field_names(declared_fields, info) - - # Determine any extra field arguments and hidden fields that - # should be included - extra_kwargs = self.get_extra_kwargs() - extra_kwargs, hidden_fields = self.get_uniqueness_extra_kwargs( - field_names, declared_fields, extra_kwargs - ) - - # Now determine the fields that should be included on the serializer. - ret = OrderedDict() - for field_name in field_names: - if field_name in declared_fields: - # Field is explicitly declared on the class, use that. - ret[field_name] = declared_fields[field_name] - continue - - # Determine the serializer field class and keyword arguments. - field_cls, kwargs = self.build_field(field_name, info, model, depth) - - # Populate any kwargs defined in `Meta.extra_kwargs` - kwargs = self.build_final_kwargs(kwargs, extra_kwargs, field_name) - - # Create the serializer field. - ret[field_name] = field_cls(**kwargs) - - # Add in any hidden fields. - ret.update(hidden_fields) - - return ret - - def build_field(self, field_name, info, model, depth): - if 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) and not issubclass(field_cls, ChoiceField): - # `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__) - ) - - return field_cls, kwargs - - def build_final_kwargs(self, kwargs, extra_kwargs, field_name): - """ - Include an 'extra_kwargs' that have been included for this field, - possibly removing any incompatible existing keyword arguments. - """ - 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) - - return kwargs - - def _get_model_fields(self, field_names, declared_fields, extra_kwargs): - """ - Returns all the model fields that are being mapped to by fields - on the serializer class. - Returned as a dict of 'model field name' -> 'model field'. - Used internally by `get_uniqueness_field_options`. - """ - model = getattr(self.Meta, 'model') - model_fields = {} - - for field_name in field_names: - if field_name in declared_fields: - # If the field is declared on the serializer - field = declared_fields[field_name] - source = field.source or field_name - else: - try: - source = extra_kwargs[field_name]['source'] - except KeyError: - source = field_name - - if '.' in source or source == '*': - # Model fields will always have a simple source mapping, - # they can't be nested attribute lookups. - continue - - try: - model_fields[source] = model._meta.get_field(source) - except FieldDoesNotExist: - pass - - return model_fields - - def get_uniqueness_extra_kwargs(self, field_names, declared_fields, extra_kwargs): - """ - Return any additional field options that need to be included as a - result of uniqueness constraints on the model. This is returned as - a two-tuple of: - - ('dict of updated extra kwargs', 'mapping of hidden fields') - """ - model = getattr(self.Meta, 'model') - model_fields = self._get_model_fields( - field_names, declared_fields, extra_kwargs - ) - - # 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. - unique_constraint_names = set() - - for model_field in model_fields.values(): - # 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(field_names).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. - hidden_fields = {} - uniqueness_extra_kwargs = {} - - for unique_constraint_name in unique_constraint_names: - # Get the model field that is referred 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_fields: - # The corresponding field is present in the serializer - if default is empty: - uniqueness_extra_kwargs[unique_constraint_name] = {'required': True} - else: - uniqueness_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) - - # Update `extra_kwargs` with any new options. - for key, value in uniqueness_extra_kwargs.items(): - if key in extra_kwargs: - extra_kwargs[key].update(value) - else: - extra_kwargs[key] = value - - return extra_kwargs, hidden_fields - - def get_extra_kwargs(self): - """ - Return a dictionary mapping field names to a dictionary of - additional keyword arguments. - """ - extra_kwargs = getattr(self.Meta, '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={: {'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_field_names(self, declared_fields, info): - """ - Returns the list of all field names that should be created when - instantiating this serializer class. This is based on the default - set of fields, but also takes into account the `Meta.fields` or - `Meta.exclude` options if they have been specified. - """ - fields = getattr(self.Meta, 'fields', None) - exclude = getattr(self.Meta, 'exclude', None) - - if fields and not isinstance(fields, (list, tuple)): - raise TypeError( - 'The `fields` option must be a list or tuple. Got %s.' % - type(fields).__name__ - ) - - if exclude and not isinstance(exclude, (list, tuple)): - raise TypeError( - 'The `exclude` option must be a list or tuple. Got %s.' % - type(exclude).__name__ - ) - - assert not (fields and exclude), ( - "Cannot set both 'fields' and 'exclude' options on " - "serializer {serializer_class}.".format( - serializer_class=self.__class__.__name__ - ) - ) - - if fields is not None: - # Ensure that all declared fields have also been included in the - # `Meta.fields` option. - for field_name in declared_fields: - assert field_name in fields, ( - "The field '{field_name}' was declared on serializer " - "{serializer_class}, but has not been included in the " - "'fields' option.".format( - field_name=field_name, - serializer_class=self.__class__.__name__ - ) - ) - return fields - - # Use the default set of field names if `Meta.fields` is not specified. - fields = self.get_default_field_names(declared_fields, info) - - if exclude is not None: - # If `Meta.exclude` is included, then remove those fields. - for field_name in exclude: - assert field_name in fields, ( - "The field '{field_name}' was include on serializer " - "{serializer_class} in the 'exclude' option, but does " - "not match any model field.".format( - field_name=field_name, - serializer_class=self.__class__.__name__ - ) - ) - fields.remove(field_name) - - return fields - - def get_default_field_names(self, declared_fields, model_info): - """ - Return the default list of field names that will be used if the - `Meta.fields` option is not specified. - """ - 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 - 1 - - return NestedSerializer - class HyperlinkedModelSerializer(ModelSerializer): """ @@ -1246,7 +1302,7 @@ class HyperlinkedModelSerializer(ModelSerializer): * A 'url' field is included instead of the 'id' field. * Relationships to other instances are hyperlinks, instead of primary keys. """ - _related_class = HyperlinkedRelatedField + serializer_related_class = HyperlinkedRelatedField def get_default_field_names(self, declared_fields, model_info): """ @@ -1260,10 +1316,17 @@ class HyperlinkedModelSerializer(ModelSerializer): list(model_info.forward_relations.keys()) ) - def _get_nested_class(self, nested_depth, relation_info): + def build_nested_field(self, field_name, info, model, nested_depth): + """ + Create nested fields for forward and reverse relationships. + """ + relation_info = info.relations[field_name] + class NestedSerializer(HyperlinkedModelSerializer): class Meta: model = relation_info.related depth = nested_depth - 1 - return NestedSerializer + field_cls = NestedSerializer + kwargs = get_nested_relation_kwargs(relation_info) + return field_cls, kwargs