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I have an object that has optional fields. I have defined my serializer this way:

class ProductSerializer(serializers.Serializer):
    code = serializers.Field(source="Code")
    classification = serializers.CharField(source="Classification", required=False)

I thought required=False would do the job of bypassing the field if it doesn't exist. However, it is mentioned in the documentation that this affects deserialization rather than serialization.

I'm getting the following error:

'Product' object has no attribute 'Classification'

Which is happening when I try to access .data of the serialized instance. (Doesn't this mean it's deserialization that's raising this?)

This happens for instances that do not have Classification. If I omit Classification from the serializer class it works just fine.

How do I correctly do this? Serialize an object with optional fields, that is.

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Is it acceptable for those fields to be serialized as None, or should the key not be present at all? – Tom Christie Jul 9 '13 at 15:57
    
They are not present at all, I'm calling a SOAP web service which has optional fields using suds, the response object represents the XML returned which in certain cases doesn't include the optional field. – abstractpaper Jul 9 '13 at 16:22
    
Tom I have just realized what you meant; ideally I would like to have them not to be present at all, however I can live with None for the time being. – abstractpaper Jul 9 '13 at 18:52
up vote 5 down vote accepted

The serializers are deliberately designed to use a fixed set of fields so you wouldn't easily be able to optionally drop out one of the keys.

You could use a SerializerMethodField to either return the field value or None if the field doesn't exist, or you could not use serializers at all and simply write a view that returns the response directly.

Update for REST framework 3.0 serializer.fields can be modified on an instantiated serializer. When dynamic serializer classes are required I'd probably suggest altering the fields in a custom Serializer.__init__() method.

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6  
Considering how friendly the framework has been for my project so far, it would be nice to have an out of the box option for keys that do not exist to default to None. – abstractpaper Jul 10 '13 at 8:51
    
@TomChristie Hey Tom, now that DRF 3 is out, would you be able to update your answer for the recommended way of doing this using DRF 3? I'm asking because a couple of people are suggesting different ways using DRF 3 and I'm not sure what the best option is (see Mark's answer below or see David's answer here: stackoverflow.com/questions/27015931/… for examples of ways to accomplish this using DRF 3. What would you say is the best way using DRF 3?) – user2719875 Oct 7 '15 at 6:49

Django REST Framework 3.0+
Dynamic fields now supported, see http://www.django-rest-framework.org/api-guide/serializers/#dynamically-modifying-fields -- this approach defines all of the fields in the serializer, and then allows you to selectively remove the ones you don't want.

Or you could also do something like this for a Model Serializer, where you mess around with Meta.fields in the serializer init:

class ProductSerializer(serializers.ModelSerializer):
    class Meta:
        model = Product
        fields = ('code',)

    def __init__(self, *args, **kwargs):
        if SHOW_CLASSIFICATION: # add logic here for optional viewing
            self.Meta.fields = list(self.Meta.fields)
            self.Meta.fields.append('classification')
        super(ProductSerializer, self).__init__(*args, **kwargs)

You'd have to ask Tom though if this is the "correct way" since it may not fit in with the long term plan.

Django REST Framework < 3.0
Try something like this:

class ProductSerializer(serializers.Serializer):
    ...
    classification = serializers.SerializerMethodField('get_classification')

    def get_classification(self, obj):
        return getattr(obj, 'classification', None)
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From the "it's a terrible hack relying on specific implementation details of both DRF and Django, but it works (at least for now)" files, here's the approach I used to include some additional debugging data in the response from a "create" method implementation on a serializer:

def create(self, validated_data)
    # Actual model instance creation happens here...
    self.fields["debug_info"] = serializers.DictField(read_only=True)
    my_model.debug_info = extra_data
    return my_model

This is a temporary approach that lets me use the browsable API to display some of the raw response data received from a particular remote service during the creation process. In the future, I'm inclined to keep this capability, but hide it behind a "report debugging info" flag in the creation request rather than returning the lower level info by default.

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