Configurable and modular Filter setup for Laravel. This is intended to make it easy to search for and filter by records using a typical web shop filter. For example, if you want to filter a catalog of products by product attributes, brand names, product lines and so forth.
The standard Filter class provided is set up to apply filters to a given (Eloquent) query builder. Additionally a CountableFilter extension of the class is provided for offering typical counts for determining what alternative filter settings should be displayed to visitors.
This is not a ready-to-use package, but a framework you can extend for your own specific applications.
Laravel | PHP | Package |
---|---|---|
5.8 and below | 7.0+ | 1.1 |
6.0 to 7.0 | 7.1+ | 2.0 |
6.0 to 8.0 | 7.2+ | 3.1 |
9.0 | 8.1+ | 4.0 |
10 and up | 8.1+ | 5.0 |
Via Composer
$ composer require czim/laravel-filter
Make a class that extends Czim\FilterData
and set the protected properties for validation rules $rules
and the default values for these attributes $defaults
.
Note that $defaults
are used as the main means to detect which filter parameters need to be applied to the query, so make sure all filter parameters you want to implement are present in it.
Simply extend the (abstract) filter class of your choice, either Czim\Filter\Filter
or Czim\Filter\CountableFilter
.
Each has abstract methods that must be provided for the class to work. Once they are all set (see below), you can simply apply filter settings to a query:
$filterValues = [ 'attributename' => 'value', ... ];
$filter = new SomeFilter($filterValues);
// get an Eloquent builder query for a model
$query = SomeEloquentModel::query();
// apply the filter to the query
$filteredQuery = $filter->apply($query);
// normal get() call on the now filtered query
$results = $filteredQuery->get();
A CountableFilter
has an additional method that may be called:
$countResults = $filter->count();
You can find more about countable filters below.
You may pass any array or Arrayable data directly into the filter, and it will create a FilterData
object for you.
If you do not have the $filterDataClass
property overridden, however, your filter will do nothing (because no attributes and defaults are set for it, the FilterData will always be empty).
In your extension of the Filter
class, override the property like so in order to be able to let the Filter create it automatically:
class YourFilter extends \Czim\Filter\Filter
{
protected $filterDataClass = \Your\FilterDataClass::class;
...
}
Your FilterData
class should then look something like this:
class FilterDataClass extends \Czim\Filter\FilterData
{
// Validation rules for filter attributes passed in
protected $rules = [
'name' => 'string|required',
'brands' => 'array|each:integer',
'before' => 'date',
'active' => 'boolean',
];
// Default values and the parameter names accessible to the Filter class
// If (optional) filter attributes are not provided, these defaults will be used:
protected $defaults = [
'name' => null,
'brands' => [],
'before' => null,
'active' => true,
];
}
Filter validation rules are optional. If no rules are provided, validation always passes. Defaults are required, and define which parameter keys are applied by the filter.
Then, passing array(able) data into the constructor of your filter will automatically instantiate that FilterData class for you.
If it is an (unmodified) extension of Czim\FilterData
, it will also validate the data and throw an exception if the data does not match the $rules
defined in your Data class.
Alternatively, you can make your own implementation of the provided FilterDataInterface
and pass it into the Filter directly.
$filter = new YourFilter( new YourFilterData($someData) );
All it needs to do is implement the interface; if you pass in data this way, the data will be set without any further checks or validation, unless you handle it in your FilterData implementation yourself.
Basic Filters take a query and apply filter parameters to it, before handing it back. (Note that the query object passed in will be modified; it is not cloned in the Filter before making modifications).
For example, if you'd do the following:
$query = SomeModel::where('some_column', 1);
$query = (new YourFilter([ 'name' => 'random' ]))->apply($query);
echo $query->toSql();
You might expect the result to be something like select * from some_models where some_column = 1 and name LIKE '%random%'
.
What a filter exactly does with the filter data you pass into its constructor must be defined in your implementation. This may be done in two main ways, which can be freely combined:
- By defining strategies (overriding the public
strategies()
method) - By overriding the
applyParameter()
method as a fallback option
Important: filter logic is only invoked if the parameter's provided value is not empty.
Regardless of the method you choose to make your filter application, it will only be applied if: ! empty($value) || $value === false
.
You can define strategies for each filter parameter by adding a strategies method to your filter as follows:
protected function strategies(): array
{
return [
// as a ParameterFilter instance
'parameter_name_here' => new \Czim\Filter\ParameterFilters\SimpleString(),
// as a ParameterFilter class string
'another_parameter' => \Czim\Filter\ParameterFilters\SimpleString::class,
// as an anonymous function
'yet_another' => function($name, $value, $query) {
return $query->where('some_column', '>', $value);
},
// as an array (passable to call_user_func())
'and_another' => [ $this, 'someMethodYouDefined' ],
];
}
If filter data is passed into the class with the same keyname as a strategy, that strategy method will be invoked. As shown above, there are different ways to provide a callable method for filters, but all methods mean passing data to a function that takes these parameters:
/**
* @param string $name the keyname of the parameter/strategy
* @param mixed $value the value for this parameter set in the filter data
* @param EloquentBuilder $query
* @param FilterInterface $filter the filter from which the strategy was invoked
*/
public function apply(string $name, $value, $query);
A ParameterFilter
is a class (any that implements the ParameterFilterInterface
) which may be set as a filter strategy.
The apply()
method on this class will be called when the filter is applied.
If the ParameterFilter is given as a string for the strategy, it will be instantiated when the filter is applied.
Strategies may also be defined as closures or arrays (so long as they may be fed into a call_user_func()
).
The method called by this will receive the four parameters noted above.
Only if no strategy has been defined for a parameter, the callback method applyParameter()
will be called on the filter itself.
By default, an exception will occur.
Some common ParameterFilters are included in this package:
SimpleInteger
: for looking up (integer) values with an optional operator ('=' by default)SimpleString
: for looking up string values, with a LIKE % + value + % match by defaultSimpleTranslatedString
: (usesJoinKey::Translations
as the join key)
If you prefer, you can also use the fallback method to handle any or all of the appliccable parameters. Simply add the following method to your filter class:
protected function applyParameter(string $name, $value, $query)
{
switch ($name) {
case 'parameter_name_here':
// your implementation of the filter ...
return $query;
...
}
// as a safeguard, you can call the parent method,
// which will throw exceptions for unhandled parameters
parent::applyParameter($name, $value, $query);
}
You can freely combine this approach with the strategy definitions mentioned above.
The only limitation is that when there is a strategy defined for a parameter, the applyParameter()
fallback will not be called for it.
The CountableFilter
is an extension of the normal filter that helps write special filters for, say, web shops where it makes sense to show relevant alternatives based on the current filter choices.
Take a product catalog, for instance, where you're filtering based on a particular brand name and a price range. In the filter options shown, you may want to display other brands that your visitor can filter on, but only the brands for which your have products in the chosen price range. The idea is to prevent your visitors from selecting a different brand only to find that there are no results.
CountableFilters
help you to do this, by using currently set filters to generate counts for alternative options.
Say you have brand X, Y and Z, and are filtering products only for brand X and only in a given price range.
The countable filter makes it easy to get a list of how many products also have matches for the price range of brand Y and Z.
To set up a CountableFilter
, set up the Filter
as normal, but additionally configure $countables
and countStrategies()
.
The counting strategies are similarly configurable/implementable as filtering strategies.
The return value for CountableFilter::count()
is an instance of Czim\CountableResults
, which is basically a standard Laravel Collection
instance.
Strategies may be defined for the effects of count()
per parameter for your CountableFilter, in the same way as normal filter strategies.
protected function countStrategies(): array
{
return [
'parameter_name_here' => new \Czim\Filter\ParameterCounters\SimpleInteger(),
...
];
}
The same methods for defining strategies are available as with the strategies()
methods above: instances (of ParameterCounters in this case), strings, closures and arrays.
The fallback for parameters without defined strategies is countParameter()
:
/**
* @param string $parameter countable name
* @param EloquentBuilder $query
*/
protected function countParameter(string $parameter, $query)
{
// your implementation for each $parameter name
}
Just like ParameterFilters for Filter
, ParameterCounters can be used as 'plugins' for your CountableFilter
.
protected function countStrategies(): array
{
return [
'parameter_name_here' => new ParameterCounters\YourParameterCounter()
];
}
ParameterCounters must implement the ParameterCounterInterface
, featuring this method:
/**
* @param string $name
* @param EloquentBuilder $query
* @param CountableFilterInterface $filter
*/
public function count(string $name, $query, CountableFilterInterface $filter);
When joining tables for filter parameters, it may occur that different parameters require the same join(s). In order to prevent duplicate joining of tables, the Filter class has a built in helper for working with joins.
// within your applyParameter implementation
// the first parameter is a keyname you define, see the JoinKey enum provided
// the second parameter is an array of parameters that is passed on directly
// to Laravel's query builder join() method.
$this->addJoin('keyname_for_your_join', [ 'table', 'column_a', '=', 'column_b' ]);
// or within a ParameterFilter apply() method, call it on the filter
$filter->addJoin( ... , [ ... ]);
Joins so added are automatically applied to the filter after all parameters are applied.
Sometimes it may be useful to let filter-wide settings affect the way your filter works.
You can set these through a setter directly on the filter class, setSetting()
.
Alternatively, you can define a filter parameter strategy as Filter::SETTING
, and it will be loaded as a setting before the filter is applied.
// in your Filter class:
protected function strategies(): array
{
return [
...
'global_setting_name' => static::SETTING
];
}
When a setting has been set in either way, you can check it with the setting()
method.
Note that the ParameterFilter/ParameterCounter also receives the $filter
itself as a parameter and the method is public.
If a setting has not been defined, the setting()
method for it will return null
.
Here are some examples of using the Filter and CountableFilter classes.
Please see CONTRIBUTING for details.
The MIT License (MIT). Please see License File for more information.