Eliminate boilerplate involved in defining basic CRUD functions in a Phoenix context or Elixir module.
When using Context modules in a Phoenix application, there's a general need to define the standard CRUD functions for a given Ecto.Schema
. Phoenix context generators will even do this automatically. Soon you will notice that there's quite a lot of code involved in CRUD access within your contexts.
This can become problematic for a few reasons:
- Boilerplate functions for CRUD access, for every
Ecto.Schema
referenced in that context, introduce more noise than signal. This can obscure the more interesting details of the context. - These functions may tend to accumulate drift from the standard API by inviting edits for new use-cases, reducing the usefulness of naming conventions.
- The burden of locally testing wrapper functions, yields low value for the writing and maintainence investment.
In short, at best this code is redundant and at worst is a deviant entanglement of modified conventions. All of which amounts to a more-painful development experience. EctoResource
was created to ease this pain.
EctoResource
can be used to generate CRUD functions for a given Ecto.Repo
and Ecto.Schema
. By default it will create every function needed to create, read, update, and delete the resouce. It includes the !
version of each function (where relevant) that will raise an error instead of return a value.
You can optionally include or exclude specific functions to generate exactly the functions your context requires. There's also two handy aliases for generating read functions and read/write functions.
For methods that return a list of records, it seems natural to use a plural name. For example, take a function named MyContext.all_schema
. While this works, it makes the grammar a bit awkward and distracts from the intent of the function. EctoResource
uses Inflex
when generating functions to create readable english function names automatically. For example, given the schema Person
, a function named all_people/1
is generated.
Every function generated includes documentation so your application's documentation will include the generated functions with examples.
A function is generated for each resource defined by EctoResource
to list all the functions generated for each Ecto.Repo
and Ecto.Schema
. A mix task is included to provide easy access to this information.
While EctoResource
was designed for Phoenix Contexts in mind, It can be used in any Elixir module.
This package is available in Hex, the package can be installed by adding ecto_resource to your list of dependencies in mix.exs:
def deps do
[
{:ecto_resource, "~> 1.1.0"}
]
end
defmodule MyApp.MyContext do
alias MyApp.Repo
alias MyApp.Schema
use EctoResource
using_repo(Repo) do
resource(Schema)
end
end
This generates all the functions EctoResource
has to offer:
MyContext.all_schemas/1
MyContext.change_schema/1
MyContext.create_schema/1
MyContext.create_schema!/1
MyContext.delete_schema/1
MyContext.delete_schema!/1
MyContext.get_schema/2
MyContext.get_schema!/2
MyContext.get_schema_by/2
MyContext.get_schema_by!/2
MyContext.update_schema/2
MyContext.update_schema!/2
defmodule MyApp.MyContext do
alias MyApp.Repo
alias MyApp.Schema
use EctoResource
using_repo(Repo) do
resource(Schema, only: [:create, :delete!])
end
end
This generates only the given functions:
MyContext.create_schema/1
MyContext.delete_schema!/1
defmodule MyApp.MyContext do
alias MyApp.Repo
alias MyApp.Schema
use EctoResource
using_repo(Repo) do
resource(Schema, except: [:create, :delete!])
end
end
This generates all the functions excluding the given functions:
MyContext.all_schemas/1
MyContext.change_schema/1
MyContext.create_schema!/1
MyContext.delete_schema/1
MyContext.get_schema/2
MyContext.get_schema_by/2
MyContext.get_schema_by!/2
MyContext.get_schema!/2
MyContext.update_schema/2
MyContext.update_schema!/2
defmodule MyApp.MyContext do
alias MyApp.Repo
alias MyApp.Schema
use EctoResource
using_repo(Repo) do
resource(Schema, :read)
end
end
This generates all the functions necessary for reading data:
MyContext.all_schemas/1
MyContext.get_schema/2
MyContext.get_schema!/2
defmodule MyApp.MyContext do
alias MyApp.Repo
alias MyApp.Schema
use EctoResource
using_repo(Repo) do
resource(Schema, :read_write)
end
end
This generates all the functions except delete_schema/1
and delete_schema!/1
:
MyContext.all_schemas/1
MyContext.change_schema/1
MyContext.create_schema/1
MyContext.create_schema!/1
MyContext.get_schema/2
MyContext.get_schema!/2
MyContext.update_schema/2
MyContext.update_schema!/2
The general idea of the generated resource functions is to abstract away the Ecto.Repo
and Ecto.Schema
parts of data access with Ecto
and provide an API to the context that feels natural and clear to the caller.
The following examples will all assume a repo named Repo
and a schema named Person
.
Fetches a list of all %Person{} entries from the data store. Note: EctoResource
will pluralize this function name using Inflex
iex> all_people()
[%Person{id: 1}]
iex> all_people(preloads: [:address])
[%Person{id: 1, address: %Address{}}]
iex> all_people(order_by: [desc: :id])
[%Person{id: 2}, %Person{id: 1}]
iex> all_people(preloads: [:address], order_by: [desc: :id]))
[
%Person{
id: 2,
address: %Address{}
},
%Person{
id: 1,
address: %Address{}
}
]
Creates a %Person{}
changeset.
iex> change_person(%{name: "Example Person"})
#Ecto.Changeset<
action: nil,
changes: %{name: "Example Person"},
errors: [],
data: #Person<>,
valid?: true
>
Inserts a %Person{}
with the given attributes in the data store, returning an :ok
/:error
tuple.
iex> create_person(%{name: "Example Person"})
{:ok, %Person{id: 123, name: "Example Person"}}
iex> create_person(%{invalid: "invalid"})
{:error, %Ecto.Changeset}
Inserts a %Person{}
with the given attributes in the data store, returning a %Person{}
or raises Ecto.InvalidChangesetError
.
iex> create_person!(%{name: "Example Person"})
%Person{id: 123, name: "Example Person"}
iex> create_person!(%{invalid: "invalid"})
** (Ecto.InvalidChangesetError)
Deletes a given %Person{}
from the data store, returning an :ok
/:error
tuple.
iex> delete_person(%Person{id: 1})
{:ok, %Person{id: 1}}
iex> delete_person(%Person{id: 999})
{:error, %Ecto.Changeset}
Deletes a given %Person{}
from the data store, returning the deleted %Person{}
, or raises Ecto.StaleEntryError
.
iex> delete_person!(%Person{id: 1})
%Person{id: 1}
iex> delete_person!(%Person{id: 999})
** (Ecto.StaleEntryError)
Fetches a single %Person{}
from the data store where the primary key matches the given id, returns a %Person{}
or nil
.
iex> get_person(1)
%Person{id: 1}
iex> get_person(999)
nil
iex> get_person(1, preloads: [:address])
%Person{
id: 1,
address: %Address{}
}
Fetches a single %Person{}
from the data store where the primary key matches the given id, returns a %Person{}
or raises Ecto.NoResultsError
.
iex> get_person!(1)
%Person{id: 1}
iex> get_person!(999)
** (Ecto.NoResultsError)
iex> get_person!(1, preloads: [:address])
%Person{
id: 1,
address: %Address{}
}
Fetches a single %Person{}
from the data store where the attributes match the
given values.
iex> get_person_by(%{name: "Chuck Norris"})
%Person{name: "Chuck Norris"}
iex> get_person_by(%{name: "Doesn't Exist"})
nil
Fetches a single %Person{}
from the data store where the attributes match the
given values. Raises an Ecto.NoResultsError
if the record does not exist
iex> get_person_by!(%{name: "Chuck Norris"})
%Person{name: "Chuck Norris"}
iex> get_person_by!(%{name: "Doesn't Exist"})
** (Ecto.NoResultsError)
Updates a given %Person{} with the given attributes, returns an :ok
/:error
tuple.
iex> update_person(%Person{id: 1}, %{name: "New Person"})
{:ok, %Person{id: 1, name: "New Person"}}
iex> update_person(%Person{id: 1}, %{invalid: "invalid"})
{:error, %Ecto.Changeset}
Updates a given %Person{} with the given attributes, returns a %Person{} or raises Ecto.InvalidChangesetError
.
iex> update_person!(%Person{id: 1}, %{name: "New Person"})
%Person{id: 1, name: "New Person"}
iex> update_person!(%Person{id: 1}, %{invalid: "invalid"})
** (Ecto.InvalidChangesetError)
This is not meant to be used as a wrapper for all the Repo functions within a context. Not all callbacks defined in Ecto.Repo are generated. EctoResource
should be used to help reduce boilerplate code and tests for general CRUD operations.
It may be the case that EctoResource
needs to evolve and provide slightly more functionality/flexibility in the future. However, the general focus is reducing boilerplate code.
If you discover any bugs, feel free to create an issue on GitHub. Please add as much information as possible to help in fixing the potential bug. You are also encouraged to help even more by forking and sending us a pull request.
- Fork it (https://github.com/daytonn/ecto_resource/fork)
- Add upstream remote (
git remote add upstream [email protected]:daytonn/ecto_resource.git
) - Make sure you're up-to-date with upstream master (
git pull upstream master
) - Create your feature branch (
git checkout -b feature/fooBar
) - Commit your changes (
git commit -am 'Add some fooBar'
) - Push to the branch (
git push origin feature/fooBar
) - Create a new Pull Request
- Ability to override pluralization
- Find functions (maybe?)