Important : This gem is targeted at DataTables version 1.10.x.
It's tested against :
- Rails: 7.0.4 / 7.1.0 / 7.2.0
- Ruby: 3.0 / 3.1 / 3.2 / 3.3
- Databases: MySQL 8 / SQLite3 / Postgresql 16 / Oracle XE 11.2 (thanks to travis-oracle)
- Adapters: sqlite / mysql2 / trilogy / postgres / postgis / oracle
DataTables is a nifty jQuery plugin that adds the ability to paginate, sort, and search your html tables. When dealing with large tables (more than a couple of hundred rows) however, we run into performance issues. These can be fixed by using server-side pagination, but this breaks some DataTables functionality.
ajax-datatables-rails
is a wrapper around DataTables ajax methods that allow synchronization with server-side pagination in a Rails app. It was inspired by this Railscast. I needed to implement a similar solution in a couple projects I was working on, so I extracted a solution into a gem.Joel Quenneville (original author)
I needed a good gem to manage a lot of DataTables so I chose this one :)
Nicolas Rodriguez (current maintainer)
The final goal of this gem is to generate a JSON content that will be given to jQuery DataTables. All the datatable customizations (header, tr, td, css classes, width, height, buttons, etc...) must take place in the javascript definition of the datatable. jQuery DataTables is a very powerful tool with a lot of customizations available. Take the time to read the doc.
You'll find a sample project here : https://ajax-datatables-rails.herokuapp.com
Its real world examples. The code is here : https://github.com/jbox-web/ajax-datatables-rails-sample-project
Add these lines to your application's Gemfile:
gem 'ajax-datatables-rails'
And then execute:
$ bundle install
We assume here that you have already installed jQuery DataTables.
You can install jQuery DataTables :
- with the
jquery-datatables
gem - by adding the assets manually (in
vendor/assets
) - with Rails webpacker gem (see here for more infos)
Currently AjaxDatatablesRails
only supports ActiveRecord
as ORM for performing database queries.
Adding support for Sequel
, Mongoid
and MongoMapper
is (more or less) a planned feature for this gem.
If you'd be interested in contributing to speed development, please open an issue and get in touch.
The following examples assume that we are setting up ajax-datatables-rails
for an index page of users from a User
model,
and that we are using Postgresql as our db, because you should be using it. (It also works with other DB, see above)
The goal is to render a users table and display : id
, first name
, last name
, email
, and bio
for each user.
Something like this:
ID | First Name | Last Name | Brief Bio | |
---|---|---|---|---|
1 | John | Doe | [email protected] | Is your default user everywhere |
2 | Jane | Doe | [email protected] | Is John's wife |
3 | James | Doe | [email protected] | Is John's brother and best friend |
Here the steps we're going through :
- Generate the datatable class
- Build the View
- Customize the generated Datatables class
- Setup the Controller action
- Wire up the Javascript
Run the following command:
$ rails generate datatable User
This will generate a file named user_datatable.rb
in app/datatables
.
Open the file and customize in the functions as directed by the comments.
Take a look here for an explanation about the generator syntax.
You should always start by the single source of truth, which is your html view.
- Set up an html
<table>
with a<thead>
and<tbody>
- Add in your table headers if desired
- Don't add any rows to the body of the table, DataTables does this automatically
- Add a data attribute to the
<table>
tag with the url of the JSON feed, in our case is theusers_path
as we're pointing to theUsersController#index
action
<table id="users-datatable" data-source="<%= users_path(format: :json) %>">
<thead>
<tr>
<th>ID</th>
<th>First Name</th>
<th>Last Name</th>
<th>Email</th>
<th>Brief Bio</th>
</tr>
</thead>
<tbody>
</tbody>
</table>
First we need to declare in view_columns
the list of the model(s) columns mapped to the data we need to present.
In this case: id
, first_name
, last_name
, email
and bio
.
This gives us:
def view_columns
@view_columns ||= {
id: { source: "User.id" },
first_name: { source: "User.first_name", cond: :like, searchable: true, orderable: true },
last_name: { source: "User.last_name", cond: :like, nulls_last: true },
email: { source: "User.email" },
bio: { source: "User.bio" },
}
end
Notes : by default orderable
and searchable
are true and cond
is :like
.
cond
can be :
:like
,:start_with
,:end_with
,:string_eq
,:string_in
for string or full text search:eq
,:not_eq
,:lt
,:gt
,:lteq
,:gteq
,:in
for numeric:date_range
for date range:null_value
for nil fieldProc
for whatever (see here for real example)
The nulls_last
param allows for nulls to be ordered last. You can configure it by column, like above, or by datatable class :
class MyDatatable < AjaxDatatablesRails::ActiveRecord
self.nulls_last = true
# ... other methods (view_columns, data...)
end
See here to get more details about columns definitions and how to play with associated models.
You can customize or sanitize the search value passed to the DB by using the :formatter
option with a lambda :
def view_columns
@view_columns ||= {
id: { source: "User.id" },
first_name: { source: "User.first_name" },
last_name: { source: "User.last_name" },
email: { source: "User.email", formatter: -> (o) { o.upcase } },
bio: { source: "User.bio" },
}
end
The object passed to the lambda is the search value.
Then we need to map the records retrieved by the get_raw_records
method to the real values we want to display :
def data
records.map do |record|
{
id: record.id,
first_name: record.first_name,
last_name: record.last_name,
email: record.email,
bio: record.bio,
DT_RowId: record.id, # This will automagically set the id attribute on the corresponding <tr> in the datatable
}
end
end
Deprecated: You can either use the v0.3 Array style for your columns :
This method builds a 2d array that is used by datatables to construct the html table. Insert the values you want on each column.
def data
records.map do |record|
[
record.id,
record.first_name,
record.last_name,
record.email,
record.bio
]
end
end
The drawback of this method is that you can't pass the DT_RowId
so it's tricky to set the id attribute on the corresponding <tr>
in the datatable (need to be done on JS side).
See here if you need to use view helpers like link_to
, mail_to
, etc...
This is where your query goes.
def get_raw_records
User.all
end
Obviously, you can construct your query as required for the use case the datatable is used.
Example:
def get_raw_records
User.active.with_recent_messages
end
You can put any logic in get_raw_records
based on any parameters you inject in the Datatable
object.
IMPORTANT : Because the result of this method will be chained to ActiveRecord
methods for sorting, filtering and pagination,
make sure to return an ActiveRecord::Relation
object.
You can inject other key/value pairs in the rendered JSON by defining the #additional_data
method :
def additional_data
{
foo: 'bar'
}
end
Very useful with datatables-factory (or yadcf) to provide values for dropdown filters.
Set the controller to respond to JSON
def index
respond_to do |format|
format.html
format.json { render json: UserDatatable.new(params) }
end
end
Don't forget to make sure the proper route has been added to config/routes.rb
.
See here if you need to inject params in the UserDatatable
.
Note : If you have more than 2 datatables in your application, don't forget to read this.
Finally, the javascript to tie this all together. In the appropriate coffee
file:
# users.coffee
$ ->
$('#users-datatable').dataTable
processing: true
serverSide: true
ajax:
url: $('#users-datatable').data('source')
pagingType: 'full_numbers'
columns: [
{data: 'id'}
{data: 'first_name'}
{data: 'last_name'}
{data: 'email'}
{data: 'bio'}
]
# pagingType is optional, if you want full pagination controls.
# Check dataTables documentation to learn more about
# available options.
or, if you're using plain javascript:
// users.js
jQuery(document).ready(function() {
$('#users-datatable').dataTable({
"processing": true,
"serverSide": true,
"ajax": {
"url": $('#users-datatable').data('source')
},
"pagingType": "full_numbers",
"columns": [
{"data": "id"},
{"data": "first_name"},
{"data": "last_name"},
{"data": "email"},
{"data": "bio"}
]
// pagingType is optional, if you want full pagination controls.
// Check dataTables documentation to learn more about
// available options.
});
});
Sometimes you'll need to use view helper methods like link_to
, mail_to
,
edit_user_path
, check_box_tag
and so on in the returned JSON representation returned by the data
method.
To have these methods available to be used, this is the way to go:
class UserDatatable < AjaxDatatablesRails::ActiveRecord
extend Forwardable
# either define them one-by-one
def_delegator :@view, :check_box_tag
def_delegator :@view, :link_to
def_delegator :@view, :mail_to
def_delegator :@view, :edit_user_path
# or define them in one pass
def_delegators :@view, :check_box_tag, :link_to, :mail_to, :edit_user_path
# ... other methods (view_columns, get_raw_records...)
def initialize(params, opts = {})
@view = opts[:view_context]
super
end
# now, you'll have these methods available to be used anywhere
def data
records.map do |record|
{
id: check_box_tag('users[]', record.id),
first_name: link_to(record.first_name, edit_user_path(record)),
last_name: record.last_name,
email: mail_to(record.email),
bio: record.bio
DT_RowId: record.id,
}
end
end
end
# and in your controller:
def index
respond_to do |format|
format.html
format.json { render json: UserDatatable.new(params, view_context: view_context) }
end
end
If you want to keep things tidy in the data mapping method, you could use Draper to define column mappings like below.
Note : This is the recommanded way as you don't need to inject the view_context
in the Datatable object to access helpers methods.
It also helps in separating view/presentation logic from filtering logic (the only one that really matters in a datatable class).
Example :
class UserDatatable < AjaxDatatablesRails::ActiveRecord
...
def data
records.map do |record|
{
id: record.decorate.check_box,
first_name: record.decorate.link_to,
last_name: record.decorate.last_name
email: record.decorate.email,
bio: record.decorate.bio
DT_RowId: record.id,
}
end
end
...
end
class UserDecorator < ApplicationDecorator
delegate :last_name, :bio
def check_box
h.check_box_tag 'users[]', object.id
end
def link_to
h.link_to object.first_name, h.edit_user_path(object)
end
def email
h.mail_to object.email
end
# Just an example of a complex method you can add to you decorator
# To render it in a datatable just add a column 'dt_actions' in
# 'view_columns' and 'data' methods and call record.decorate.dt_actions
def dt_actions
links = []
links << h.link_to 'Edit', h.edit_user_path(object) if h.policy(object).update?
links << h.link_to 'Delete', h.user_path(object), method: :delete, remote: true if h.policy(object).destroy?
h.safe_join(links, '')
end
end
An AjaxDatatablesRails::ActiveRecord
inherited class can accept an options hash at initialization. This provides room for flexibility when required.
Example:
# In the controller
def index
respond_to do |format|
format.html
format.json { render json: UserDatatable.new(params, user: current_user, from: 1.month.ago) }
end
end
# The datatable class
class UnrespondedMessagesDatatable < AjaxDatatablesRails::ActiveRecord
# ... other methods (view_columns, data...)
def user
@user ||= options[:user]
end
def from
@from ||= options[:from].beginning_of_day
end
def to
@to ||= Date.today.end_of_day
end
# We can now customize the get_raw_records method
# with the options we've injected
def get_raw_records
user.messages.unresponded.where(received_at: from..to)
end
end
If you have models from different databases you can set the db_adapter
on the datatable class :
class MySharedModelDatatable < AjaxDatatablesRails::ActiveRecord
self.db_adapter = :oracle_enhanced
# ... other methods (view_columns, data...)
def get_raw_records
AnimalsRecord.connected_to(role: :reading) do
Dog.all
end
end
end
You can mix several model in the same datatable.
Suppose we have the following models: User
, PurchaseOrder
,
Purchase::LineItem
and we need to have several columns from those models
available in our datatable to search and sort by.
# we use the ModelName.column_name notation to declare our columns
def view_columns
@view_columns ||= {
first_name: { source: 'User.first_name' },
last_name: { source: 'User.last_name' },
order_number: { source: 'PurchaseOrder.number' },
order_created_at: { source: 'PurchaseOrder.created_at' },
quantity: { source: 'Purchase::LineItem.quantity' },
unit_price: { source: 'Purchase::LineItem.unit_price' },
item_total: { source: 'Purchase::LineItem.item_total }'
}
end
The previous example has only one single model. But what about if you have some associated nested models and in a report you want to show fields from these tables.
Take an example that has an Event, Course, CourseType, Allocation, Teacher, Contact, Competency and CompetencyType
models. We want to have a datatables
report which has the following column:
'course_types.name'
'courses.name'
'contacts.full_name'
'competency_types.name'
'events.title'
'events.event_start'
'events.event_end'
'events.status'
We want to sort and search on all columns of the list. The related definition would be :
def view_columns
@view_columns ||= {
course_type: { source: 'CourseType.name' },
course_name: { source: 'Course.name' },
contact_name: { source: 'Contact.full_name' },
competency_type: { source: 'CompetencyType.name' },
event_title: { source: 'Event.title' },
event_start: { source: 'Event.event_start' },
event_end: { source: 'Event.event_end' },
event_status: { source: 'Event.status' },
}
end
def get_raw_records
Event.joins(
{ course: :course_type },
{ allocations: {
teacher: [:contact, { competencies: :competency_type }]
}
}).distinct
end
Some comments for the above code :
-
In the
get_raw_records
method we have quite a complex query having one to many and many to many associations using the joins ActiveRecord method. The joins will generate INNER JOIN relations in the SQL query. In this case, we do not include all event in the report if we have events which is not associated with any model record from the relation. -
To have all event records in the list we should use the
.includes
method, which generate LEFT OUTER JOIN relation of the SQL query.
IMPORTANT :
Make sure to append .references(:related_model)
with any
associated model. That forces the eager loading of all the associated models
by one SQL query, and the search condition for any column works fine.
Otherwise the :recordsFiltered => filter_records(get_raw_records).count(:all)
will generate 2 SQL queries (one for the Event model, and then another for the
associated tables). The :recordsFiltered => filter_records(get_raw_records).count(:all)
will use only the first one to return from the ActiveRecord::Relation object
in get_raw_records
and you will get an error message of Unknown column
'yourtable.yourfield' in 'where clause' in case the search field value
is not empty.
So the query using the .includes()
method is:
def get_raw_records
Event.includes(
{ course: :course_type },
{ allocations: {
teacher: [:contact, { competencies: :competency_type }]
}
}).references(:course).distinct
end
See DefaultScope is evil and #223 and #233.
This feature works with datatables-factory (or yadcf).
To enable the date range search, for example created_at
:
- add a
created_at
<th>
in your html - declare your column in
view_columns
:created_at: { source: 'Post.created_at', cond: :date_range, delimiter: '-yadcf_delim-' }
- add it in
data
:created_at: record.decorate.created_at
- setup yadcf to make
created_at
search field a range
Also, a class that inherits from AjaxDatatablesRails::ActiveRecord
is not tied to an
existing model, module, constant or any type of class in your Rails app.
You can pass a name to your datatable class like this:
$ rails generate datatable users
# returns a users_datatable.rb file with a UsersDatatable class
$ rails generate datatable contact_messages
# returns a contact_messages_datatable.rb file with a ContactMessagesDatatable class
$ rails generate datatable UnrespondedMessages
# returns an unresponded_messages_datatable.rb file with an UnrespondedMessagesDatatable class
In the end, it's up to the developer which model(s), scope(s), relationship(s) (or else) to employ inside the datatable class to retrieve records from the database.
Datatables can be tested with Capybara provided you don't use Webrick during integration tests.
Long story short and as a rule of thumb : use the same webserver everywhere (dev, prod, staging, test, etc...).
If you use Puma (the Rails default webserver), use Puma everywhere, even in CI/test environment. The same goes for Thin.
You will avoid the usual story : it works in dev but not in test environment...
If you want to test datatables with a lot of data you might need this kind of tricks : https://robots.thoughtbot.com/automatically-wait-for-ajax-with-capybara. (thanks CharlieIGG)
In the same spirit of Rails ApplicationController
and ApplicationRecord
, you can create an ApplicationDatatable
class (in app/datatables/application_datatable.rb
)
that will be inherited from other classes :
class ApplicationDatatable < AjaxDatatablesRails::ActiveRecord
# puts commonly used methods here
end
class PostDatatable < ApplicationDatatable
end
This way it will be easier to DRY you datatables.
Install yajl-ruby, basically :
gem 'yajl-ruby', require: 'yajl'
then
$ bundle install
That's all :) (Automatically prefer Yajl or JSON backend over Yaml, if available)
Use HTTP POST
method to avoid 414 Request-URI Too Large
error. See : #278 and #308.
You can easily define a route concern in config/routes.rb
and reuse it when you need it :
Rails.application.routes.draw do
concern :with_datatable do
post 'datatable', on: :collection
end
resources :posts, concerns: [:with_datatable]
resources :users, concerns: [:with_datatable]
end
then in your controllers :
# PostsController
def index
end
def datatable
render json: PostDatatable.new(params)
end
# UsersController
def index
end
def datatable
render json: UserDatatable.new(params)
end
then in your views :
# posts/index.html.erb
<table id="posts-datatable" data-source="<%= datatable_posts_path(format: :json) %>">
# users/index.html.erb
<table id="users-datatable" data-source="<%= datatable_users_path(format: :json) %>">
then in your Coffee/JS :
# send params in form data
$ ->
$('#posts-datatable').dataTable
ajax:
url: $('#posts-datatable').data('source')
type: 'POST'
# ...others options, see [here](#5-wire-up-the-javascript)
# send params as json data
$ ->
$('#users-datatable').dataTable
ajax:
url: $('#users-datatable').data('source')
contentType: 'application/json'
type: 'POST'
data: (d) ->
JSON.stringify d
# ...others options, see [here](#5-wire-up-the-javascript)
In order to speed up the ILIKE
queries that are executed when using the default configuration, you might want to consider adding some indices.
For postgresql, you are advised to use the gin/gist index type.
This makes it necessary to enable the postgrsql extension pg_trgm
. Double check that you have this extension installed before trying to enable it.
A migration for enabling the extension and creating the indices could look like this:
def change
enable_extension :pg_trgm
TEXT_SEARCH_ATTRIBUTES = ['your', 'attributes']
TABLE = 'your_table'
TEXT_SEARCH_ATTRIBUTES.each do |attr|
reversible do |dir|
dir.up do
execute "CREATE INDEX #{TABLE}_#{attr}_gin ON #{TABLE} USING gin(#{attr} gin_trgm_ops)"
end
dir.down do
remove_index TABLE.to_sym, name: "#{TABLE}_#{attr}_gin"
end
end
end
end
Filtering by JSONB column values : #277
Use has_scope gem with ajax-datatables-rails
: #280
Use Datatable orthogonal data : see #269
- Fork it
- Create your feature branch (
git checkout -b my-new-feature
) - Commit your changes (
git commit -am 'Added some feature'
) - Push to the branch (
git push origin my-new-feature
) - Create new Pull Request