Loupe is query language for Ecto schema inspection in a safe and configurable manner.
You can see this example app to understand how it applies with Ecto.
Until Loupe reaches 1.x.x
, it's considered experimental. The syntax will change, APIs will change and structure will too. We'll do our best to respect semantic versioning and avoid big breaking changes but they can happen.
If available in Hex, the package can be installed
by adding loupe
to your list of dependencies in mix.exs
:
def deps do
[
{:loupe, "~> 0.1.0"}
]
end
Documentation can be generated with ExDoc and published on HexDocs. Once published, the docs can be found at https://hexdocs.pm/loupe.
The basic syntax has the following format
get [quantifier?] [schema][parameters?] where [predicates]
quantifier
is how many records you want. You can provide a positive integer (1
,2
,3
...), a range (1..10
,10..20
,50..100
) orall
.schema
needs to be an alphanumeric indentifier that you registered in the Definition (See Ecto Usage for exmaple).parameters
is a json inspired map. It takes the format of{key: "value"}
. Key is an identifier, but value can be any literal type (another object, string, int, float, boolean, list)predicates
needs to be a combinaison or operators and boolean operators.
You can use k
and m
quantifiers for numbers. Writing get all User where money > 100k
translates to get all User where money > 100000
.
The are a couple of basic operators like <
, >
, <=
, >=
, =
, !=
.
But also some textual operators:
in
is used with lists, likeage in [18, 21]
like
is used with strings and automatically wraps in%
.
You can also use the keyword :empty
as a null checker like age :empty
.
Textual operators and :empty
can be prefixed with not
to negate the expression: not like
, not in
, age not :empty
.
For boolean, the binding can be provided as is and prefixed by not
for false. Example where active
or where not enabled
.
So far, the syntax supprts and
and or
and use parenthese to scope the expressions.
Recently, support for "field variant" has been added. It's a syntax that allows to "customize" a field. The Ecto implementation uses the variant to query composite fields. Assume you have a composite Postgres field that is Money (like the Money.Ecto.Composite.Type type from the Money lib), you can now do the following to query the amount:
get User where bank_account:amount >= 1k
Loupe now supports "Path binding", being able to specify a path (like a json path) on a field. This is used by te Ecto implementation to query json field like below:
get User where role.permissions[posts, access] = "write"
# or
get User where role.permissions["posts", "access"] = "write"
The library allows you to provide external data to you query. Any identifier (unquote alphanumerical and underscore values) provided on the right side of an operator will be output as such. Taking for instance the Ecto implementation, it allows you to provide external parameter to the query.
A good usecase example could be to automatically provide a user_id
based from the authenticated user. So you can use it like:
get Posts where author_id = user_id
Then when evaluating the query you make sure to provide the user id by doing
Loupe.Ecto.build_query(query, EctoDefinition, %{}, %{"user_id" => current_user.id})
Note: Variables in query are required. When evaluating if the query uses a variable that is not provided, an error will be raise.
This variables can also be used in parameters. Suppose your implementation supports an order_by
parameter, you can use it like
get Posts{order_by: {direction: direction, field: field}}
Unlike variables, they don't need to be provided, they are simply extract as such and it's up to you to manipulate them the way you want. For the case of the Ecto implementation, however, they do need to be implemented so they can be extracted in the returning context.
The Definition module is necessary for Loupe to work with your Ecto schema. In this module you define the schemas that are allowed to be queried and the fields that are permitted for querying.
All callbacks accepts a last argument called "assigns". The assigns are provided to you when evaluating the query allowing you to alter the defition. You could, for instance, add a user's role to the assign and use that role to filter out the allowed schemas so that only admins can query Users.
defmodule MyApp.Loupe.Definition do
@moduledoc """
Example Ecto definition for the modules defined above.
"""
@behaviour Loupe.Ecto.Definition
@schemas %{
"Post" => Post,
"User" => User,
"Role" => Role
}
@impl Loupe.Ecto.Definition
def schemas(%{role: "admin"}), do: @schemas
def schemas(_), do: Map.take(@schemas, ["Post", "User"])
@impl Loupe.Ecto.Definition
def schema_fields(_, %{role: "admin"}), do: :all
def schema_fields(Post, _), do: {:only, [:title, :body]}
def schema_fields(User, _), do: {:only, [:email, :posts]}
def schema_fields(_, _), do: :all
@impl Loupe.Ecto.Definition
def scope_schema(schema, _), do: schema
end
Once you have this definition, you can try some queries
{:ok, ast} = Loupe.Language.compile(~s|get all User where age > 18|)
{:ok, ecto_query} = Loupe.Ecto.build_query(ast, MyApp.Loupe.Definition, %{role: "admin"})
Repo.all(ecto_query)
Here are some things that I would like Loupe to support:
- Sorting a query, current ideas involves
get all User order asc inserted_at
get all User where age > 10 ordered asc inserted_at
.
- Support some more complex fields prefixed by ~ (or whatever syntax, inspired by elixir's sigils) like the examples below
get all Product where price = ~99.99$
and have that use the Elixir money lib.get all Item where ratio = ~1/4
- Implement a LiveView UI lib that shows the strucutres as expandable. Being able to click on a User's
posts
to automatically preload all of its nested Posts.- Also have "block" UI module where you can simply create a query from dropdowns in a form for non-power user.
- Make lexer and parser swappable. Right now, you are stuck with the internal structure that I came up with. The idea would be to allow some to swap the syntax for anything they want. For instance, a french team could implement a french query language to give to their normal user.
You can see the CONTRIBUTING.md
file to know more about the contributing guidelines.
Pull requests are welcome!