simexis / laravel-filterable
A trait to add query filtering functions to Laravel models
Requires
- php: >=7.2
- illuminate/support: ^6.0|^7.0|^8.0|^9.0
This package is auto-updated.
Last update: 2024-11-12 14:54:05 UTC
README
A trait to provide composable queries to Laravel models.
The intended usage is to provide an easy way to declare how a model's fields are filterable and allow the filter query to be expressed in a form that can be easily represented (as a JSON object for example).
The Simexis\Filterable\FilterableTrait adds a filter() method to a Model which works with the Laravel query builder. The filter() method accepts a single argument which is an array of [field => value] pairs that define the search query being made.
Install
composer require simexis/laravel-filterable
Usage
Basic usage is to add the trait to a Model class and configure filterable fields.
use Simexis\Filterable\Filterable;
class User extends Model
{
use \Simexis\Filterable\FilterableTrait;
protected $filterable = [
'name' => Filterable::String,
'email' => Filterable::String
];
}
$filter = [
'name' => 'John'
];
User::filter($filter)->toSql();
// select * from users where name = ?
$filter = [
'name_LIKE' => 'Jo%n',
'email' => 'john@example.com'
];
User::filter($filter)->toSql();
// select * from users where name like ? and email = ?
The $filterable
property defines the fields that may be used in filter queries. The value is an array of filter rules that lists the possible variations the filter may use.
The built-in rules are:
- EQ - equality
- LIKE - SQL like
- MATCH - wildcard pattern matching
- MIN - greater than or equal to
- MAX - less than or equal to
- GT - greater than
- LT - less than
- RE - regular expression
- FT - full text search (see notes below)
- IN - contained in list
- NULL - null comparison
A standard set of rules are provided
- String = [EQ, LIKE, MATCH]
- Numeric = [EQ, MIN, MAX, LT, GT]
- Enum = [EQ, IN]
- Date = [EQ, MIN, MAX, LT, GT]
- Boolean = [EQ]
A model's filterable definition sets the rules available for each field. The first rule in the list is the default rule for the field. Other rules must add the rule name as a suffix in the filter query field name.
In the following definition, the 'name' field can use any of the String rules: EQ, LIKE, MATCH.
User::$filterable = [
'name' => Filterable::String
]
A query can thus use:
$filter = [
'name_MATCH' => 'John'
];
User::filter($filter);
The SQL that is run will match any user whose name is a case-insensitive match containing 'John', such as 'Little john', 'Johnathon', 'JOHN'.
The model's filterable definition can also be return dynamically by overloading the getFilterable() method on the class.
class User extends Model
{
use \Simexis\Filterable\FilterableTrait;
public function getFilterable () {
return [
'name' => Filterable::String,
'email' => Filterable::String
];
}
}
Custom rules
A class may provide custom rules to apply to fields.
class User extends Model
{
use \Simexis\Filterable\FilterableTrait;
protected $filterable = [
'keyword' => 'Keyword'
];
public function scopeFilterKeyword($query, $field, $arg) {
$query->where(function ($q) use ($arg) {
$q->where('name', $arg);
$q->orWhere('email', $arg);
$q->orWhere('phone', $arg);
});
return $query;
}
}
Custom rules can be listed in the $filterable definition along with the built-in rules and work in the same way. The first rule in $filterable is the default rule for the field. If it's not the first rule it must have the rule name added as a suffix to the field name in the query.
Rule names are converted to 'ucfirst' and appended to 'scopeFilter'.
Negating rules
Rules may be negated by using the 'NOT' modifier for default rules, or prefixing the rule modifier with 'NOT_' for other rules.
// anyone but John
$filter = [
'name_NOT' => 'John'
];
User::filter($filter)->toSql();
// select * from users where name != ?
// any status except 'active' or 'expired'
$filter = [
'status_NOT_IN' => ['active', 'expired']
];
User::filter($filter)->toSql();
// select * from users where status not in (?, ?)
Note: the comparison rules (MIN, MAX, LT, GT) do not have negated forms.
Custom rules may implemented a negated version by defining a corresponding scope function that implements the functionality. The function is named similarly, but with the word 'Not' before the rule name.
class User extends Model
{
...
public function scopeFilterNotKeyword($query, $field, $arg) {
return $query
->where('name', '!=', $arg)
->where('email', '!=', $arg)
->where('phone', '!=', $arg);
}
}
Logical combinations with AND, OR, NOT, and NOR
A filter can create more complex queries by structuring the filter into nested queries.
$filter = [
'OR' => [
[
'name' => 'John'
],
[
'name' => 'Alice'
]
]
];
User::filter($filter)->toSql();
// select * from users where ((name = ?) or (name = ?))
The 'AND', 'OR', 'NOT', and 'NOR' nesting operators each take a list of nested filters to apply. Nested filter queries can in turn use the nesting operators to create more complex queries.
Relationships
Relationships can be used to filter related models.
class Post extends Model
{
use \Simexis\Filterable\FilterableTrait;
public function getFilterable () {
return [
'comment' => $this->comments()
];
}
public function comments() {
return $this->hasMany(Comment::class);
}
}
class Comment extends Model
{
use \Simexis\Filterable\FilterableTrait;
public function getFilterable () {
return [
'created_at' => Filterable::Date
];
}
public function post() {
return $this->belongsTo(Post::class);
}
}
# Get all posts that have a comment in June 2017
$filter = [
'comment' => [
'created_at_MIN' => '2017-06-01',
'cerated_at_MAX' => '2017-07-01'
]
];
Post::filter($filter)->toSql()
// select * from "posts"
// inner join (
// select distinct "comments"."post_id" from "comments"
// where "created_at" >= ? and "created_at" <= ?
// ) as "comments_1" on "posts"."id" = "comments_1"."post_id"
Chaining filters
Filters are deeply merged when chaining.
class Post extends Model
{
use \Simexis\Filterable\FilterableTrait;
public function getFilterable () {
return [
'comment' => $this->comments()
];
}
public function comments() {
return $this->hasMany(Comment::class);
}
}
class User extends Model
{
use \Simexis\Filterable\FilterableTrait;
protected $filterable = [
'id' => Filterable::Integer
];
}
class Comment extends Model
{
use \Simexis\Filterable\FilterableTrait;
public function getFilterable () {
return [
'created_at' => Filterable::Date,
'author' => $this->author()
];
}
public function post() {
return $this->belongsTo(Post::class);
}
public function author() {
return $this->belongsTo(User::class);
}
}
$filter1 = [
'comment' => [
'created_at_MIN' => '2017-06-01',
'created_at_MAX' => '2017-07-01'
]
];
$filter2 = [
'comment' => [
'author' => [
'id' => 1
]
]
];
Post::filter($filter1)->filter($filter2)->toSql()
// select * from "posts"
// inner join (
// select distinct "comments"."post_id"
// from "comments"
// inner join (
// select distinct "users"."id" as "author_id" from "users"
// where "id" = ?
// ) as "authors_1" on "comments"."author_id" = "authors_1"."author_id"
// where "created_at" >= ? and "created_at" <= ?
// ) as "comments_1" on "posts"."id" = "comments_1"."post_id"
To not do a deep merge the filterApply()
method can be used.
Post::filter($filter1)->filterApply()->filter($filter2)->toSql()
// select * from "posts"
// inner join (
// select distinct "comments"."post_id" from "comments"
// where "created_at" >= ? and "created_at" <= ?
// ) as "comments_1" on "posts"."id" = "comments_1"."post_id"
// inner join (
// select distinct "comments"."post_id" from "comments"
// inner join (
// select distinct "users"."id" as "author_id" from "users"
// where "id" = ?
// ) as "authors_1" on "comments"."author_id" = "authors_1"."author_id"
// ) as "comments_2" on "posts"."id" = "comments_2"."post_id"
Full text search
The Filterable::FT
rule provides a basic form of full text search in PostgreSQL using tsearch.
To make use of the full text rule the application must provide a table populated with search data. By default, the table is named according to the model name with _filterable
as suffix, and has a one-to-one mapping using the same primary key as the model's table. The tsearch vector data is stored in a column using the field's name with _vector
suffix. The table and vector field names can be customised by provide values for the filterableFtTable and filterableFtVector properties.
-- Content model table
create table posts (id int primary key, body text);
-- Full text search data
create table posts_filterable (id int references posts (id), body_vector tsvector);
The application must ensure the vector field is appropriately updated (usually by defining trigger functions).
class Post
{
use \Simexis\Filterable\FilterableTrait;
protected $filterable = [
'body' => Filterable::FT
];
}
$filter = [
'body' => 'fat cats'
];
Post::filter($filter)->orderBy('body_rank', 'desc')->toSql();
// select * from "posts" inner join (
// select "id", ts_rank("body_vector", query) as "body_rank"
// from "posts_filterable"
// cross join plainto_tsquery(?) query
// where "body_vector" @@ "query"
// ) as body_1 on "posts"."id" = "body_1"."id"
// order by "body_rank" desc
The model may provide custom values for the search table, foreign key, and field names.
class Post
{
use \Simexis\Filterable\FilterableTrait;
protected $filterable = [
'body' => Filterable::FT
];
protected $filterableFtTable = 'search';
protected $filterableFtKeyName = 'post_id';
protected $filterableFtVector = 'data';
}
These custom values may also be evaluated dynamically by providing "get" functions.
class Post
{
use \Simexis\Filterable\FilterableTrait;
protected $filterable = [
'body' => Filterable::FT
];
public function getFilterableFtTable ($field) {
return 'search';
};
public function getFilterableFtKeyName ($field) {
return 'post_id';
}
public function getFilterableFtVector ($field) {
return $field;
}
}