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One-To-Many Associations

Mix.install([
  {:jason, "~> 1.4"},
  {:kino, "~> 0.9", override: true},
  {:youtube, github: "brooklinjazz/youtube"},
  {:hidden_cell, github: "brooklinjazz/hidden_cell"}
])

Navigation

Review Questions

Upon completing this lesson, a student should be able to answer the following questions.

  • How do we create a foreign key reference in a migration?
  • How do we associate two records in a schema?
  • How do we write tests for associated records?
  • How do we preload associated data?

Overview

This is a companion reading for the Blog: Comments exercise. This lesson is an overview of how to work with one-to-many associations in a Phoenix application.

One To Many Associations

In a one-to-many relationship, a single record in one table is associated with multiple records in another table. For example, a Post might have many Comments associated with it.

erDiagram

Post {
}

Comment {
    text content
    id blog_id
}

Post ||--o{ Comment : "has many"
Loading

In this relationship, we'd say the parent (post) has many children (comments), and the child belongs to the parent.

The child in the relationship stores a foreign key id that associates it with the parent.

Generators

We can generate the scaffolding for an associated resource using the phoenix generators.

Often associated resources don't require their own controller, and instead only need to generate the context. For example:

mix phx.gen.context Comments Comment comments content:text post_id:references:posts

The post_id:references:posts field creates the post_id foreign key id field that references the posts table.

Then if you need to create controller actions you might re-use the controller for the parent resource.

Alternatively, you might generate the resource normally using mix phx.gen.html and selectively include controller actions you expect to use.

resources "/comments", CommentController, only: [:create, :update, :delete]

Migration

Here's an example migration that creates a foreign key field post_id that references another table.

defmodule Blog.Repo.Migrations.CreateComments do
  use Ecto.Migration

  def change do
    create table(:comments) do
      add :content, :text
      add :post_id, references(:posts, on_delete: :nothing)

      timestamps()
    end

    create index(:comments, [:post_id])
  end
end

The index/3 macro creates A database that provides a quick and efficient way to look up records in a database. While not required, without an index, the database management system would need to scan through every record in the table to find the desired information.

The on_delete behavior describes what should happen to the child if we delete the parent. For example, we could use the :delete_all behavior to delete all comments when a post is deleted. See references/2 options for a full list of similar options.

We can also enforce that comments have an associated post using the null: false option. See add/3 options for a full list of similar options.

Here's an example putting that together:

defmodule Blog.Repo.Migrations.CreateComments do
  use Ecto.Migration

  def change do
    create table(:comments) do
      add :content, :text
      add :post_id, references(:posts, on_delete: :delete_all), null: false

      timestamps()
    end

    create index(:comments, [:post_id])
  end
end

Schema

Schemas are like blueprints that define how data is stored in a database. They have an id field for an associated record, but they don't know anything else about how the records are related to each other.

defmodule Blog.Comments.Comment do
  use Ecto.Schema
  import Ecto.Changeset

  schema "comments" do
    field :content, :string
    field :post_id, :id

    timestamps()
  end

  @doc false
  def changeset(comment, attrs) do
    comment
    |> cast(attrs, [:content])
    |> validate_required([:content])
  end
end

However, It's often useful to describe the association to the schema using the belongs_to/3 and has_many/3 macros.

For example, we might want to load the associated comments when we retrieve a Post.

Here's how we might modify the Comment to include the association.

defmodule Blog.Comments.Comment do
  use Ecto.Schema
  import Ecto.Changeset

  schema "comments" do
    field :content, :string
    belongs_to :post, Blog.Posts.Post

    timestamps()
  end

  @doc false
  def changeset(comment, attrs) do
    comment
    |> cast(attrs, [:content, :post_id])
    |> validate_required([:content, :post_id])
    |> foreign_key_constraint(:post_id)
  end
end

We also use foreign_key_constraint/3 above to ensure the :post_id provided is an actual post id in the database.

Here's how we might modify the Post to include the association.

defmodule Blog.Posts.Post do
  use Ecto.Schema
  import Ecto.Changeset

  schema "posts" do
    field :content, :string
    field :subtitle, :string
    field :title, :string
    has_many :comments, Blog.Comments.Comment

    timestamps()
  end

  @doc false
  def changeset(post, attrs) do
    post
    |> cast(attrs, [:title, :subtitle, :content])
    |> validate_required([:title, :subtitle, :content])
  end
end

Preloading

Once we've defined the association using belongs_to/3 or has_many/3 we can preload associated data structures when querying the database.

For example, we can preload data before we've retrieved it from the database using Ecto.Query.preload/3.

from(p in Post, preload: [:comments]) |> Repo.get!(1)

Or we can preload data on a given struct using Ecto.Repo.preload/3.

Repo.preload(post, :comments)

Adding Associations To Tests

By default, when Phoenix generates tests they do not test the associated data structure, so we have to write our own or modify the existing tests.

For example, in the case of comments and posts, we'd have to modify all of the tests to create a post and provide the post id when creating a comment.

# Imported The PostsFixtures Module To Use The `post_fixture` Function.
import Blog.PostsFixtures
# Use The Post Fixture Whenever Creating A Comment To Provide The `post_id`.
post = post_fixture()
comment = comment_fixture(post_id: post.id)

Testing Preloading Associations

Here's an example of how to test that we preload an association. This would be useful if we want to display all of the comments for a particular post.

test "get_post!/1 returns the post with given id and associated comments" do
  post = post_fixture()
  comment = comment_fixture(post_id: post.id)
  assert Posts.get_post!(post.id).comments == [comment]
end

Creating Associated Data

Here's an example of how to test that creating a record with an associated data structure works as expected.

test "create_comment/1 with valid data creates a comment" do
  post = post_fixture()
  valid_attrs = %{content: "some content", post_id: post.id}

  assert {:ok, %Comment{} = comment} = Comments.create_comment(valid_attrs)
  assert comment.content == "some content"
  assert comment.post_id == post.id
end

Fixing Tests Due To An Unloaded Association

Some tests might break due to not using preloaded associations in the assertions. Those tests can be fixed using Repo.preload/3. For example:

test "get_post!/1 returns the post with given id" do
  post = post_fixture()
  assert Posts.get_post!(post.id) == Repo.preload(post, :comments)
end

Controller Tests

We often have to fix or write our own tests to handle the creation of associated data and the redirect behavior of controller tests.

Here's an example test for creating a comment.

  describe "create comment" do
    test "redirects to show when data is valid", %{conn: conn} do
      post = post_fixture()
      create_attrs = %{content: "some content", post_id: post.id}
      conn = post(conn, ~p"/comments", comment: create_attrs)

      assert %{id: id} = redirected_params(conn)
      # redirect to the post show page
      assert redirected_to(conn) == ~p"/posts/#{post.id}"

      conn = get(conn, ~p"/posts/#{post.id}")
      assert html_response(conn, 200) =~ "some content"
    end

    test "renders errors when data is invalid", %{conn: conn} do
      post = post_fixture()
      invalid_attrs = %{content: nil, post_id: post.id}
      conn = post(conn, ~p"/comments", comment: invalid_attrs)
      # apostrophes are rendered as ' in HTML.
      assert html_response(conn, 200) =~ "can't be blank"
    end
  end

If generating controllers or controller tests it's best to remove any unused tests and functionality.

Delete Behavior

If we change the delete behavior of some resource, we might want to verify it works as expected. Here's an example test that ensures we delete comments when we delete a post.

test "delete_post/1 deletes the post and associated comments" do
  post = post_fixture()
  comment = comment_fixture(post_id: post.id)
  assert {:ok, %Post{}} = Posts.delete_post(post)

  assert_raise Ecto.NoResultsError, fn -> Posts.get_post!(post.id) end
  assert_raise Ecto.NoResultsError, fn -> Comments.get_comment!(comment.id) end
end

Associated Forms

Associated data needs to be sent in an HTTP request. There are a few main ways to include this data:

  • body params in the form
  • URL params
  • query params

Body Params

Here's an example form that uses a @post and a @comment_changeset that would be defined in the conn.assigns by the controller. The form uses a hidden input to include the post id when it makes a request.

<.simple_form :let={f} for={@comment_changeset} action={~p"/comments"}>
  <.input type="hidden" field={f[:post_id]} value={@post.id} />
  <.input field={f[:content]} type="text" label="Content" />
  <:actions>
    <.button>Comment</.button>
  </:actions>
</.simple_form>

URL Params Or Query Params

To use URL params or query params, change the action in the form to include the associated data in the url, then omit the hidden input above.

# URL Params
action={~p"/comments/#{@post.id}"}
# Query Params
action={~p"/comments/?post_id=#{@post.id}"}

Handling Associated Data In The Controller

A corresponding controller action needs to be defined to handle the HTTP request with the associated data sent by the form.

Body Params

Here's an example controller action that assumes the post_id of a comment is included in the body params with the form.

def create(conn, %{"comment" => comment_params}) do
  case Comments.create_comment(comment_params) do
    {:ok, comment} ->
      conn
      |> put_flash(:info, "Comment created successfully.")
      # redirect to the post show page where the comment form is rendered
      |> redirect(to: ~p"/posts/#{comment.post_id}")

    {:error, %Ecto.Changeset{} = comment_changeset} ->
      post = Posts.get_post!(comment_params["post_id"])
      # re-render the post show page with a comment changeset that the page uses to display errors.
      render(conn, :show, post: post, comment_changeset: comment_changeset)
  end
end

URL Or Query Params

If the request was sent using URL params or query params the post id would be handled separately like so:

def create(conn, %{"comment" => comment_params, "post_id" => post_id}) do
  case Comments.create_comment(Map.put(comment_params, "post_id", post_id)) do
    {:ok, comment} ->
      conn
      |> put_flash(:info, "Comment created successfully.")
      |> redirect(to: ~p"/posts/#{post_id}")

    {:error, %Ecto.Changeset{} = comment_changeset} ->
      post = Posts.get_post!(post_id)
      render(conn, :show, post: post, comment_changeset: comment_changeset)
  end
end

Further Reading

Consider the following resource(s) to deepen your understanding of the topic.

Commit Your Progress

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Run git status to ensure there are no undesirable changes. Then run the following in your command line from the curriculum folder to commit your progress.

$ git add .
$ git commit -m "finish One-To-Many Associations reading"
$ git push

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