2017-08-17 22:00:37 +05:30
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# Serializers
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This is a documentation for classes located in `app/serializers` directory.
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In GitLab, we use [grape-entities][grape-entity-project], accompanied by a
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serializer, to convert a Ruby object to its JSON representation.
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Serializers are typically used in controllers to build a JSON response
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that is usually consumed by a frontend code.
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## Why using a serializer is important?
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Using serializers, instead of `to_json` method, has several benefits:
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* it helps to prevent exposure of a sensitive data stored in the database
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* it makes it easier to test what should and should not be exposed
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* it makes it easier to reuse serialization entities that are building blocks
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* it makes it easier to move complexity from controllers to easily testable
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classes
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* it encourages hiding complexity behind intentions-revealing interfaces
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* it makes it easier to take care about serialization performance concerns
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* it makes it easier to reduce merge conflicts between CE -> EE
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* it makes it easier to benefit from domain driven development techniques
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## What is a serializer?
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A serializer is a class that encapsulates all business rules for building a
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JSON response using serialization entities.
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It is designed to be testable and to support passing additional context from
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the controller.
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## What is a serialization entity?
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Entities are lightweight structures that allow to represent domain models
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in a consistent and abstracted way, and reuse them as building blocks to
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create a payload.
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Entities located in `app/serializers` are usually derived from a
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[`Grape::Entity`][grape-entity-class] class.
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Serialization entities that do require to have a knowledge about specific
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elements of the request, need to mix `RequestAwareEntity` in.
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A serialization entity usually maps a domain model class into its JSON
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representation. It rarely happens that a serialization entity exists without
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a corresponding domain model class. As an example, we have an `Issue` class and
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a corresponding `IssueSerializer`.
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2021-01-03 14:25:43 +05:30
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Serialization entities are designed to reuse other serialization entities, which
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is a convenient way to create a multi-level JSON representation of a piece of
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a domain model you want to serialize.
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2021-01-03 14:25:43 +05:30
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See [documentation for Grape Entities][grape-entity-readme] for more details.
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## How to implement a serializer?
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### Base implementation
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In order to effectively implement a serializer it is necessary to create a new
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class in `app/serializers`. See existing serializers as an example.
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A new serializer should inherit from a `BaseSerializer` class. It is necessary
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to specify which serialization entity will be used to serialize a resource.
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```ruby
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class MyResourceSerializer < BaseSerializer
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entity MyResourceEntity
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end
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```
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The example above shows how a most simple serializer can look like.
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Given that the entity `MyResourceEntity` exists, you can now use
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`MyResourceSerializer` in the controller by creating an instance of it, and
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calling `MyResourceSerializer#represent(resource)` method.
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Note that a `resource` can be either a single object, an array of objects or an
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`ActiveRecord::Relation` object. A serialization entity should be smart enough
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to accurately represent each of these.
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It should not be necessary to use `Enumerable#map`, and it should be avoided
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from the performance reasons.
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### Choosing what gets serialized
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It often happens that you might want to use the same serializer in many places,
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but sometimes the intention is to only expose a small subset of object's
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attributes in one place, and a different subset in another.
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`BaseSerializer#represent(resource, opts = {})` method can take an additional
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hash argument, `opts`, that defines what is going to be serialized.
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`BaseSerializer` will pass these options to a serialization entity. See
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how it is [documented in the upstream project][grape-entity-only].
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With this approach you can extend the serializer to respond to methods that will
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create a JSON response according to your needs.
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```ruby
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class PipelineSerializer < BaseSerializer
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entity PipelineEntity
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def represent_details(resource)
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represent(resource, only: [:details])
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end
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def represent_status(resource)
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represent(resource, only: [:status])
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end
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end
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```
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It is possible to use `only` and `except` keywords. Both keywords do support
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nested attributes, like `except: [:id, { user: [:id] }]`.
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Passing `only` and `except` to the `represent` method from a controller is
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possible, but it defies principles of encapsulation and testability, and it is
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better to avoid it, and to add a specific method to the serializer instead.
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### Reusing serialization entities from the API
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Public API in GitLab is implemented using [Grape][grape-project].
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Under the hood it also uses [`Grape::Entity`][grape-entity-class] classes.
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This means that it is possible to reuse these classes to implement internal
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serializers.
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You can either use such entity directly:
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```ruby
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class MyResourceSerializer < BaseSerializer
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entity API::Entities::SomeEntity
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end
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```
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Or derive a new serialization entity class from it:
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```ruby
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class MyEntity < API::Entities::SomeEntity
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include RequestAwareEntity
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unexpose :something
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end
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```
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It might be a good idea to write specs for entities that do inherit from
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the API, because when API payloads are changed / extended, it is easy to forget
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about the impact on the internal API through a serializer that reuses API
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entities.
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It is usually safe to do that, because API entities rarely break backward
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compatibility, but additional exposure may have a performance impact when API
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gets extended significantly. Write tests that check if only necessary data is
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exposed.
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## How to write tests for a serializer?
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Like every other class in the project, creating a serializer warrants writing
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tests for it.
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It is usually a good idea to test each public method in the serializer against
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a valid payload. `BaseSerializer#represent` returns a hash, so it is possible
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to use usual RSpec matchers like `include`.
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Sometimes, when the payload is large, it makes sense to validate it entirely
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using `match_response_schema` matcher along with a new fixture that can be
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stored in `spec/fixtures/api/schemas/`. This matcher is using a `json-schema`
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gem, which is quite flexible, see a [documentation][json-schema-gem] for it.
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## How to use a serializer in a controller?
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Once a new serializer is implemented, it is possible to use it in a controller.
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Create an instance of the serializer and render the response.
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```ruby
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def index
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format.json do
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render json: MyResourceSerializer
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.new(current_user: @current_user)
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.represent_details(@project.resources)
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end
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end
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```
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If it is necessary to include additional information in the payload, it is
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possible to extend what is going to be rendered, the usual way:
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```ruby
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def index
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format.json do
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render json: {
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resources: MyResourceSerializer
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.new(current_user: @current_user)
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.represent_details(@project.resources),
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count: @project.resources.count
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}
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end
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end
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```
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Note that in these examples an additional context is being passed to the
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serializer (`current_user: @current_user`).
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## How to pass an additional context from the controller?
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It is possible to pass an additional context from a controller to a
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serializer and each serialization entity that is used in the process.
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Serialization entities that do require an additional context have
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`RequestAwareEntity` concern mixed in. This piece of the code exposes a method
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called `request` in every serialization entity that is instantiated during
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serialization.
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An object returned by this method is an instance of `EntityRequest`, which
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behaves like an `OpenStruct` object, with the difference that it will raise
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an error if an unknown method is called.
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In other words, in the previous example, `request` method will return an
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instance of `EntityRequest` that responds to `current_user` method. It will be
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available in every serialization entity instantiated by `MyResourceSerializer`.
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`EntityRequest` is a workaround for [#20045][issue-20045] and is meant to be
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refactored soon. Please avoid passing an additional context that is not
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required by a serialization entity.
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At the moment, the context that is passed to entities most often is
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`current_user` and `project`.
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## How is this related to using presenters?
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Payload created by a serializer is usually a representation of the backed code,
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combined with the current request data. Therefore, technically, serializers
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are presenters that create payload consumed by a frontend code, usually Vue
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components.
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In GitLab, it is possible to use [presenters][presenters-readme], but
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`BaseSerializer` still needs to learn how to use it, see [#30898][issue-30898].
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It is possible to use presenters when serializer is used to represent only
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a single object. It is not supported when `ActiveRecord::Relation` is being
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serialized.
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```ruby
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MyObjectSerializer.new.represent(object.present)
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```
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## Best practices
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1. Do not invoke a serializer from within a serialization entity.
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If you need to use a serializer from within a serialization entity, it is
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possible that you are missing a class for an important domain concept.
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Consider creating a new domain class and a corresponding serialization
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entity for it.
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1. Use only one approach to switch behavior of the serializer.
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It is possible to use a few approaches to switch a behavior of the
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serializer. Most common are using a [Fluent Interface][fluent-interface]
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and creating a separate `represent_something` methods.
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Whatever you choose, it might be better to use only one approach at a time.
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1. Do not forget about creating specs for serialization entities.
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Writing tests for the serializer indeed does cover testing a behavior of
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serialization entities that the serializer instantiates. However it might
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be a good idea to write separate tests for entities as well, because these
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are meant to be reused in different serializers, and a serializer can
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change a behavior of a serialization entity.
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1. Use `ActiveRecord::Relation` where possible
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Using an `ActiveRecord::Relation` might help from the performance perspective.
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1. Be diligent about passing an additional context from the controller.
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Using `EntityRequest` and `RequestAwareEntity` is a workaround for the lack
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of high-level mechanism. It is meant to be refactored, and current
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implementation is error prone. Imagine the situation that one serialization
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entity requires `request.user` attribute, but the second one wants
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`request.current_user`. When it happens that these two entities are used in
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the same serialization request, you might need to pass both parameters to
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the serializer, which is obviously not a perfect situation.
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When in doubt, pass only `current_user` and `project` if these are required.
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1. Keep performance concerns in mind
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Using a serializer incorrectly can have significant impact on the
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performance.
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Because serializers are technically presenters, it is often necessary
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to calculate, for example, paths to various controller-actions.
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Since using URL helpers usually involve passing `project` and `namespace`
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adding `includes(project: :namespace)` in the serializer, can help to avoid
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N+1 queries.
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Also, try to avoid using `Enumerable#map` or other methods that will
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execute a database query eagerly.
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1. Avoid passing `only` and `except` from the controller.
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1. Write tests checking for N+1 queries.
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1. Write controller tests for actions / formats using serializers.
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1. Write tests that check if only necessary data is exposed.
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1. Write tests that check if no sensitive data is exposed.
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## Future
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* [Next iteration of serializers][issue-27569]
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[grape-project]: http://www.ruby-grape.org
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[grape-entity-project]: https://github.com/ruby-grape/grape-entity
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[grape-entity-readme]: https://github.com/ruby-grape/grape-entity/blob/master/README.md
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[grape-entity-class]: https://github.com/ruby-grape/grape-entity/blob/master/lib/grape_entity/entity.rb
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[grape-entity-only]: https://github.com/ruby-grape/grape-entity/blob/master/README.md#returning-only-the-fields-you-want
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[presenters-readme]: https://gitlab.com/gitlab-org/gitlab-foss/blob/master/app/presenters/README.md
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[fluent-interface]: https://en.wikipedia.org/wiki/Fluent_interface
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[json-schema-gem]: https://github.com/ruby-json-schema/json-schema
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[issue-20045]: https://gitlab.com/gitlab-org/gitlab-foss/issues/20045
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[issue-30898]: https://gitlab.com/gitlab-org/gitlab-foss/issues/30898
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[issue-27569]: https://gitlab.com/gitlab-org/gitlab-foss/issues/27569
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