django-rest-framework/docs/tutorial/1-serialization.md

# Tutorial 1: Serialization

## Introduction

This tutorial will walk you through the building blocks that make up REST framework.   It'll take a little while to get through, but it'll give you a comprehensive understanding of how everything fits together.

## Getting started

To get started, let's create a new project to work with.

    django-admin.py startproject tutorial
    cd tutorial

Once that's done we can create an app that we'll use to create a simple Web API.

    python manage.py startapp blog

The simplest way to get up and running will probably be to use an `sqlite3` database for the tutorial.  Edit the `tutorial/settings.py` file, and set the default database `"ENGINE"` to `"sqlite3"`, and `"NAME"` to `"tmp.db"`.

    DATABASES = {
        'default': {
            'ENGINE': 'django.db.backends.sqlite3',
            'NAME': 'tmp.db',
            'USER': '',
            'PASSWORD': '',
            'HOST': '',
            'PORT': '',
        }
    }

We'll also need to add our new `blog` app and the `djangorestframework` app to `INSTALLED_APPS`.

    INSTALLED_APPS = (
        ...
        'djangorestframework',
        'blog'
    )

We also need to wire up the root urlconf, in the `tutorial/urls.py` file, to include our blog views.

    urlpatterns = patterns('',
        url(r'^', include('blog.urls')),
    )

Okay, we're ready to roll.

## Creating a model to work with

For the purposes of this tutorial we're going to start by creating a simple `Comment` model that is used to store comments against a blog post.  Go ahead and edit the  `blog` app's `models.py` file.

    from django.db import models

    class Comment(models.Model):
        email = models.EmailField()
        content = models.CharField(max_length=200)
        created = models.DateTimeField(auto_now_add=True)

Don't forget to sync the database for the first time.

    python manage.py syncdb

## Creating a Serializer class

We're going to create a simple Web API that we can use to edit these comment objects with.  The first thing we need is a way of serializing and deserializing the objects into representations such as `json`.  We do this by declaring serializers, that work very similarly to Django's forms.  Create a file in the project named `serializers.py` and add the following.

    from blog import models
    from djangorestframework import serializers


    class CommentSerializer(serializers.Serializer):
        email = serializers.EmailField()
        content = serializers.CharField(max_length=200)
        created = serializers.DateTimeField()
        
        def restore_object(self, attrs, instance=None):
            """
            Create or update a new comment instance.
            """
            if instance:
                instance.email = attrs['email']
                instance.content = attrs['content']
                instance.created = attrs['created']
                return instance
            return models.Comment(**attrs)

The first part of serializer class defines the fields that get serialized/deserialized.  The `restore_object` method defines how fully fledged instances get created when deserializing data.

We can actually also save ourselves some time by using the `ModelSerializer` class, as we'll see later, but for now we'll keep our serializer definition explicit.  

## Working with Serializers

Before we go any further we'll familiarise ourselves with using our new Serializer class.  Let's drop into the Django shell.

    python manage.py shell

Okay, once we've got a few imports out of the way, we'd better create a few comments to work with.

    from blog.models import Comment
    from blog.serializers import CommentSerializer
    from djangorestframework.renderers import JSONRenderer
    from djangorestframework.parsers import JSONParser

    c1 = Comment(email='leila@example.com', content='nothing to say')
    c2 = Comment(email='tom@example.com', content='foo bar')
    c3 = Comment(email='anna@example.com', content='LOLZ!')
    c1.save()
    c2.save()
    c3.save()

We've now got a few comment instances to play with.  Let's take a look at serializing one of those instances.

    serializer = CommentSerializer(instance=c1)
    serializer.data
    # {'email': u'leila@example.com', 'content': u'nothing to say', 'created': datetime.datetime(2012, 8, 22, 16, 20, 9, 822774)}

At this point we've translated the model instance into python native datatypes.  To finalise the serialization process we render the data into `json`.

    stream = JSONRenderer().render(serializer.data)
    stream
    # '{"email": "leila@example.com", "content": "nothing to say", "created": "2012-08-22T16:20:09.822"}'

Deserialization is similar.  First we parse a stream into python native datatypes... 

    data = JSONParser().parse(stream)

...then we restore those native datatypes into to a fully populated object instance.

    serializer = CommentSerializer(data)
    serializer.is_valid()
    # True
    serializer.object
    # <Comment object at 0x10633b2d0>
    
Notice how similar the API is to working with forms.  The similarity should become even more apparent when we start writing views that use our serializer.

## Writing regular Django views using our Serializers

Let's see how we can write some API views using our new Serializer class.
We'll start off by creating a subclass of HttpResponse that we can use to render any data we return into `json`.

Edit the `blog/views.py` file, and add the following.

    from blog.models import Comment
    from blog.serializers import CommentSerializer
    from djangorestframework.renderers import JSONRenderer
    from djangorestframework.parsers import JSONParser
    from django.http import HttpResponse


    class JSONResponse(HttpResponse):
        """
        An HttpResponse that renders it's content into JSON.
        """

        def __init__(self, data, **kwargs):
            content = JSONRenderer().render(data)
            kwargs['content_type'] = 'application/json'
            super(JSONResponse, self).__init__(content, **kwargs)


The root of our API is going to be a view that supports listing all the existing comments, or creating a new comment.

    def comment_root(request):
        """
        List all comments, or create a new comment.
        """
        if request.method == 'GET':
            comments = Comment.objects.all()
            serializer = CommentSerializer(instance=comments)
            return JSONResponse(serializer.data)

        elif request.method == 'POST':
            data = JSONParser().parse(request)
            serializer = CommentSerializer(data)
            if serializer.is_valid():
                comment = serializer.object
                comment.save()
                return JSONResponse(serializer.data, status=201)
            else:
                return JSONResponse(serializer.error_data, status=400)

We'll also need a view which corrosponds to an individual comment, and can be used to retrieve, update or delete the comment.

    def comment_instance(request, pk):
        """
        Retrieve, update or delete a comment instance.
        """
        try:
            comment = Comment.objects.get(pk=pk)
        except Comment.DoesNotExist:
            return HttpResponse(status=404)
 
        if request.method == 'GET':
            serializer = CommentSerializer(instance=comment)
            return JSONResponse(serializer.data)
    
        elif request.method == 'PUT':
            data = JSONParser().parse(request)
            serializer = CommentSerializer(data, instance=comment)
            if serializer.is_valid():
                comment = serializer.object
                comment.save()
                return JSONResponse(serializer.data)
            else:
                return JSONResponse(serializer.error_data, status=400)

        elif request.method == 'DELETE':
            comment.delete()
            return HttpResponse(status=204)

Finally we need to wire these views up, in the `tutorial/urls.py` file.

    from django.conf.urls import patterns, url

    urlpatterns = patterns('blog.views',
        url(r'^$', 'comment_root'),
        url(r'^(?P<pk>[0-9]+)$', 'comment_instance')
    )

It's worth noting that there's a couple of edge cases we're not dealing with properly at the moment.  If we send malformed `json`, or if a request is made with a method that the view doesn't handle, then we'll end up with a 500 "server error" response.  Still, this'll do for now.

## Testing our first attempt at a Web API

**TODO: Describe using runserver and making example requests from console**

**TODO: Describe opening in a web browser and viewing json output**

## Where are we now

We're doing okay so far, we've got a serialization API that feels pretty similar to Django's Forms API, and some regular Django views.

Our API views don't do anything particularly special at the moment, beyond serve `json` responses, and there's some error handling edge cases we'd still like to clean up, but it's a functioning Web API.

We'll see how we can start to improve things in [part 2 of the tutorial][1].

[1]: 2-requests-and-responses.md
New docs 2012-08-29 23:57:37 +04:00			`# Tutorial 1: Serialization`

			`## Introduction`

			`This tutorial will walk you through the building blocks that make up REST framework. It'll take a little while to get through, but it'll give you a comprehensive understanding of how everything fits together.`

			`## Getting started`

			`To get started, let's create a new project to work with.`

			`django-admin.py startproject tutorial`
			`cd tutorial`

			`Once that's done we can create an app that we'll use to create a simple Web API.`

			`python manage.py startapp blog`

			The simplest way to get up and running will probably be to use an `sqlite3` database for the tutorial. Edit the `tutorial/settings.py` file, and set the default database `"ENGINE"` to `"sqlite3"`, and `"NAME"` to `"tmp.db"`.

			`DATABASES = {`
			`'default': {`
			`'ENGINE': 'django.db.backends.sqlite3',`
			`'NAME': 'tmp.db',`
			`'USER': '',`
			`'PASSWORD': '',`
			`'HOST': '',`
			`'PORT': '',`
			`}`
			`}`

			We'll also need to add our new `blog` app and the `djangorestframework` app to `INSTALLED_APPS`.

			`INSTALLED_APPS = (`
			`...`
			`'djangorestframework',`
			`'blog'`
			`)`

			We also need to wire up the root urlconf, in the `tutorial/urls.py` file, to include our blog views.

			`urlpatterns = patterns('',`
			`url(r'^', include('blog.urls')),`
			`)`

			`Okay, we're ready to roll.`

			`## Creating a model to work with`

			For the purposes of this tutorial we're going to start by creating a simple `Comment` model that is used to store comments against a blog post. Go ahead and edit the `blog` app's `models.py` file.

			`from django.db import models`

			`class Comment(models.Model):`
			`email = models.EmailField()`
			`content = models.CharField(max_length=200)`
			`created = models.DateTimeField(auto_now_add=True)`

			`Don't forget to sync the database for the first time.`

			`python manage.py syncdb`

			`## Creating a Serializer class`

			We're going to create a simple Web API that we can use to edit these comment objects with. The first thing we need is a way of serializing and deserializing the objects into representations such as `json`. We do this by declaring serializers, that work very similarly to Django's forms. Create a file in the project named `serializers.py` and add the following.

			`from blog import models`
			`from djangorestframework import serializers`


			`class CommentSerializer(serializers.Serializer):`
			`email = serializers.EmailField()`
			`content = serializers.CharField(max_length=200)`
			`created = serializers.DateTimeField()`

			`def restore_object(self, attrs, instance=None):`
			`"""`
			`Create or update a new comment instance.`
			`"""`
			`if instance:`
			`instance.email = attrs['email']`
			`instance.content = attrs['content']`
			`instance.created = attrs['created']`
			`return instance`
			`return models.Comment(**attrs)`

			The first part of serializer class defines the fields that get serialized/deserialized. The `restore_object` method defines how fully fledged instances get created when deserializing data.

			We can actually also save ourselves some time by using the `ModelSerializer` class, as we'll see later, but for now we'll keep our serializer definition explicit.

			`## Working with Serializers`

			`Before we go any further we'll familiarise ourselves with using our new Serializer class. Let's drop into the Django shell.`

			`python manage.py shell`

			`Okay, once we've got a few imports out of the way, we'd better create a few comments to work with.`

			`from blog.models import Comment`
			`from blog.serializers import CommentSerializer`
			`from djangorestframework.renderers import JSONRenderer`
			`from djangorestframework.parsers import JSONParser`

			`c1 = Comment(email='leila@example.com', content='nothing to say')`
			`c2 = Comment(email='tom@example.com', content='foo bar')`
			`c3 = Comment(email='anna@example.com', content='LOLZ!')`
			`c1.save()`
			`c2.save()`
			`c3.save()`

			`We've now got a few comment instances to play with. Let's take a look at serializing one of those instances.`

			`serializer = CommentSerializer(instance=c1)`
			`serializer.data`
			`# {'email': u'leila@example.com', 'content': u'nothing to say', 'created': datetime.datetime(2012, 8, 22, 16, 20, 9, 822774)}`

			At this point we've translated the model instance into python native datatypes. To finalise the serialization process we render the data into `json`.

			`stream = JSONRenderer().render(serializer.data)`
			`stream`
			`# '{"email": "leila@example.com", "content": "nothing to say", "created": "2012-08-22T16:20:09.822"}'`

			`Deserialization is similar. First we parse a stream into python native datatypes...`

			`data = JSONParser().parse(stream)`

			`...then we restore those native datatypes into to a fully populated object instance.`

			`serializer = CommentSerializer(data)`
			`serializer.is_valid()`
			`# True`
			`serializer.object`
			`# <Comment object at 0x10633b2d0>`

			`Notice how similar the API is to working with forms. The similarity should become even more apparent when we start writing views that use our serializer.`

			`## Writing regular Django views using our Serializers`

			`Let's see how we can write some API views using our new Serializer class.`
			We'll start off by creating a subclass of HttpResponse that we can use to render any data we return into `json`.

			Edit the `blog/views.py` file, and add the following.

			`from blog.models import Comment`
			`from blog.serializers import CommentSerializer`
			`from djangorestframework.renderers import JSONRenderer`
			`from djangorestframework.parsers import JSONParser`
			`from django.http import HttpResponse`


			`class JSONResponse(HttpResponse):`
			`"""`
			`An HttpResponse that renders it's content into JSON.`
			`"""`

			`def __init__(self, data, **kwargs):`
			`content = JSONRenderer().render(data)`
			`kwargs['content_type'] = 'application/json'`
			`super(JSONResponse, self).__init__(content, **kwargs)`


			`The root of our API is going to be a view that supports listing all the existing comments, or creating a new comment.`

			`def comment_root(request):`
			`"""`
			`List all comments, or create a new comment.`
			`"""`
			`if request.method == 'GET':`
			`comments = Comment.objects.all()`
			`serializer = CommentSerializer(instance=comments)`
			`return JSONResponse(serializer.data)`

			`elif request.method == 'POST':`
			`data = JSONParser().parse(request)`
			`serializer = CommentSerializer(data)`
			`if serializer.is_valid():`
			`comment = serializer.object`
			`comment.save()`
			`return JSONResponse(serializer.data, status=201)`
			`else:`
			`return JSONResponse(serializer.error_data, status=400)`

			`We'll also need a view which corrosponds to an individual comment, and can be used to retrieve, update or delete the comment.`

			`def comment_instance(request, pk):`
			`"""`
			`Retrieve, update or delete a comment instance.`
			`"""`
			`try:`
			`comment = Comment.objects.get(pk=pk)`
			`except Comment.DoesNotExist:`
			`return HttpResponse(status=404)`

			`if request.method == 'GET':`
			`serializer = CommentSerializer(instance=comment)`
			`return JSONResponse(serializer.data)`

			`elif request.method == 'PUT':`
			`data = JSONParser().parse(request)`
			`serializer = CommentSerializer(data, instance=comment)`
			`if serializer.is_valid():`
			`comment = serializer.object`
			`comment.save()`
			`return JSONResponse(serializer.data)`
			`else:`
			`return JSONResponse(serializer.error_data, status=400)`

			`elif request.method == 'DELETE':`
			`comment.delete()`
			`return HttpResponse(status=204)`

			Finally we need to wire these views up, in the `tutorial/urls.py` file.

			`from django.conf.urls import patterns, url`

			`urlpatterns = patterns('blog.views',`
			`url(r'^$', 'comment_root'),`
			`url(r'^(?P<pk>[0-9]+)$', 'comment_instance')`
			`)`

			It's worth noting that there's a couple of edge cases we're not dealing with properly at the moment. If we send malformed `json`, or if a request is made with a method that the view doesn't handle, then we'll end up with a 500 "server error" response. Still, this'll do for now.

			`## Testing our first attempt at a Web API`

			`TODO: Describe using runserver and making example requests from console`

			`TODO: Describe opening in a web browser and viewing json output`

			`## Where are we now`

			`We're doing okay so far, we've got a serialization API that feels pretty similar to Django's Forms API, and some regular Django views.`

			Our API views don't do anything particularly special at the moment, beyond serve `json` responses, and there's some error handling edge cases we'd still like to clean up, but it's a functioning Web API.

			`We'll see how we can start to improve things in [part 2 of the tutorial][1].`

			`[1]: 2-requests-and-responses.md`