Schematic data mapper is a tool for converting nested data structures (any composition of associative arrays, non-associative arrays and objects) according to the given conversion schema.
composer require smoren/schemator
use Smoren\Schemator\Factories\SchematorFactory;
$input = [
'id' => 100,
'name' => 'Oxford',
'country' => [
'id' => 10,
'name' => 'UK',
'neighbours' => ['Ireland', 'Sweden', 'France'],
'capitals' => [
'lnd' => 'London',
'edb' => 'Edinburgh',
],
],
'streets' => [
[
'id' => 1000,
'name' => 'Woodstock Rd',
'houses' => [1, 5, 9],
],
[
'id' => 1002,
'name' => 'Banbury Rd',
'houses' => [22, 35, 49],
],
[
'id' => 1003,
'name' => 'Beamont St',
'houses' => [11, 12, 15],
],
],
'lnd_path' => 'country.capitals.lnd',
];
$schema = [
'city_id' => 'id',
'city_name' => 'name',
'city_street_names' => 'streets.*.name',
'country_id' => 'country.id',
'country_name' => 'country.name',
'country_neighbours' => 'country.neighbours',
'country_neighbour' => 'country.neighbours',
'country_first_capital' => 'country.capitals.lnd',
'country_second_capital' => 'country.capitals.edb',
'country_data.country_id' => 'country.id',
'country_data.country_name' => 'country.name',
];
$schemator = SchematorFactory::create();
$output = $schemator->convert($input, $schema);
print_r($output);
/* Array
(
[city_id] => 100
[city_name] => Oxford
[city_street_names] => Array
(
[0] => Woodstock Rd
[1] => Banbury Rd
[2] => Beamont St
)
[country_id] => 10
[country_name] => UK
[country_neighbours] => Array
(
[0] => Ireland
[1] => Sweden
[2] => France
)
[country_neighbour] => Array
(
[0] => Ireland
[1] => Sweden
[2] => France
)
[country_first_capital] => London
[country_second_capital] => Edinburgh
[country_data] => Array
(
[country_id] => 10
[country_name] => UK
)
)
*/
use Smoren\Schemator\Factories\SchematorFactory;
use Smoren\Schemator\Structs\ErrorsLevelMask;
use Smoren\Schemator\Exceptions\SchematorException;
$input = [
'some_key' => null,
];
$schema = [
'my_value' => ['some_key', ['date', 'Y-m-d']],
];
$schemator = SchematorFactory::createBuilder()
->withErrorsLevelMask(
ErrorsLevelMask::nothing()
->add([SchematorException::FILTER_ERROR, SchematorException::CANNOT_GET_VALUE])
)
->get();
try {
$schemator->convert($input, $schema);
} catch(SchematorException $e) {
echo $e->getMessage(); // filter error: 'date'
}
use Smoren\Schemator\Factories\SchematorFactory;
use Smoren\Schemator\Filters\BaseFiltersStorage;
$input = [
'id' => 100,
'name' => 'Oxford',
'country' => [
'id' => 10,
'name' => 'UK',
'neighbours' => ['Ireland', 'Sweden', 'France'],
'capitals' => [
'lnd' => 'London',
'edb' => 'Edinburgh',
],
],
'streets' => [
[
'id' => 1000,
'name' => 'Woodstock Rd',
'houses' => [1, 5, 9],
],
[
'id' => 1002,
'name' => 'Banbury Rd',
'houses' => [22, 35, 49],
],
[
'id' => 1003,
'name' => 'Beamont St',
'houses' => [11, 12, 15],
],
],
'lnd_path' => 'country.capitals.lnd',
];
$schema = [
'city_street_names.all' => ['streets.*.name', ['implode', ', ']],
'city_street_names.sorted' => ['streets.*.name', ['sort'], ['implode', ', ']],
'city_street_names.filtered' => ['streets.*.name', ['filter', fn (string $candidate) => strpos($candidate, 'Ban') !== false]],
'lnd' => ['lnd_path', ['path']],
'city_street_houses' => ['streets.*.houses', ['flatten']],
];
$schemator = SchematorFactory::create();
$output = $schemator->convert($input, $schema);
print_r($output);
/*
Array
(
[city_street_names] => Array
(
[all] => Woodstock Rd, Banbury Rd, Beamont St
[sorted] => Banbury Rd, Beamont St, Woodstock Rd
[filtered] => Array
(
[0] => Banbury Rd
)
)
[lnd] => London
[city_street_houses] => Array
(
[0] => 1
[1] => 5
[2] => 9
[3] => 22
[4] => 35
[5] => 49
[6] => 11
[7] => 12
[8] => 15
)
)
*/
use Smoren\Schemator\Factories\SchematorFactory;
use Smoren\Schemator\Filters\BaseFiltersStorage;
$schemator = SchematorFactory::create();
$input = [
'numbers' => [-1, 10, 5, 22, -10, 0, 35, 7, 8, 9, 0],
];
$output = $schemator->convert($input, [
'positive' => [
'numbers',
['filter', [['>', 0]]],
['sort'],
],
'negative' => [
'numbers',
['filter', [['<', 0]]],
['sort'],
],
'complicated' => [
'numbers',
['filter', [['>=', 8], ['<', 0]]],
['filter', [['<', 22]]],
['sort'],
],
]);
print_r($output);
/*
Array
(
[positive] => Array
(
[0] => 5
[1] => 7
[2] => 8
[3] => 9
[4] => 10
[5] => 22
[6] => 35
)
[negative] => Array
(
[0] => -10
[1] => -1
)
[complicated] => Array
(
[0] => -10
[1] => -1
[2] => 8
[3] => 9
[4] => 10
)
)
*/
$output = $schemator->convert($input, [
'number_types' => ['numbers', [
'replace',
[
['=0', '=', 0],
['>9', '>', 9],
['<0', '<', 0],
['1-8', 'between', 1, 8],
]
]]
]);
print_r($output);
/*
Array
(
[number_types] => Array
(
[0] => <0
[1] => >9
[2] => 1-8
[3] => >9
[4] => <0
[5] => =0
[6] => >9
[7] => 1-8
[8] => 1-8
[9] => 9
[10] => =0
)
)
*/
use Smoren\Schemator\Factories\SchematorFactory;
use Smoren\Schemator\Interfaces\FilterContextInterface;
$schemator = SchematorFactory::createBuilder()
->withFilters([
'startsWith' => function (FilterContextInterface $context, string $start) {
return array_filter($context->getSource(), function (string $candidate) use ($start) {
return strpos($candidate, $start) === 0;
});
},
])
->get();
$input = [
'streets' => ['Woodstock Rd', 'Banbury Rd', 'Beamont St'],
];
$schema = [
'street_names' => ['streets', ['startsWith', 'T'], ['implode', ', ']],
];
$output = $schemator->convert($input, $schema);
print_r($output);
/*
Array
(
[street_names] => Woodstock Rd, Beamont St
)
*/
use Smoren\Schemator\Factories\SchematorFactory;
$massSchemator = SchematorFactory::createMass();
$cities = [
[
'id' => 100,
'name' => 'London',
'country' => [
'id' => 10,
'name' => 'UK',
],
'streets' => [
[
'id' => 1001,
'name' => 'The Mall',
],
[
'id' => 1002,
'name' => 'Carnaby Street',
],
],
],
[
'id' => 101,
'name' => 'Oxford',
'country' => [
'id' => 10,
'name' => 'UK',
],
'streets' => [
[
'id' => 1003,
'name' => 'Turl Street',
],
[
'id' => 1004,
'name' => 'Holywell Street',
],
],
],
];
$schema = [
'city_id' => 'id',
'city_name' => 'name',
'city_street_names' => 'streets.*.name',
'country_id' => 'country.id',
'country_name' => 'country.name',
];
$gen = $massSchemator->generate($cities, $schema);
$result = [];
foreach($gen as $item) {
$result[] = $item;
}
print_r($result);
/*
Array
(
[0] => Array
(
[city_id] => 100
[city_name] => London
[city_street_names] => Array
(
[0] => The Mall
[1] => Carnaby Street
)
[country_id] => 10
[country_name] => UK
)
[1] => Array
(
[city_id] => 101
[city_name] => Oxford
[city_street_names] => Array
(
[0] => Turl Street
[1] => Holywell Street
)
[country_id] => 10
[country_name] => UK
)
)
*/
Sets the value from const param.
Schema:
["value" => [["const", "My const value"]]]
Result:
["value" => "My const value"]
Returns the sum of given array.
Given:
["numbers" => [1, 2, 3, 4, 5]]
Schema:
["value" => ["numbers", ["sum"]]]
Result:
["value" => 15]
Returns the average of given array.
Given:
["numbers" => [1, 2, 3, 4, 5]]
Schema:
["value" => ["numbers", ["average"]]]
Result:
["value" => 3]
Returns formatted date from the Unix timestamp given value.
Params:
- Date format
- required
- data type — string
- example:
d.m.Y H:i:s
- more about formats
- Time zone offset from GMT
- optional
- data type — integer
- default — 0
Given:
["some_date" => 1651481881]
Schema:
["value" => ["some_date", ["date", "d.m.Y H:i:s", 3]]]
Result:
["value" => "02.05.2022 11:58:01"]
Returns string of imploded items of given array with separator from args list.
params:
- Separator
- required
- data type — string
- example:
;
Given:
["numbers" => [1, 2, 3, 4, 5]]
Schema:
["value" => ["numbers", ["implode", "; "]]]
Result:
["value" => "1; 2; 3; 4; 5"]
Returns array of exploded strings from given string with separator from args list
params:
- Separator
- required
- data type — string
- example:
;
Given:
["numbers" => "1; 2; 3; 4; 5"]
Schema:
["value" => ["numbers", ["explode", "; "]]]
Result:
["value" => ["1", "2", "3", "4", "5"]]
Returns flat array contains all the dead end leaves of tree array.
Given:
[
"numbers" => [
[
[1, 2, 3],
[4, 5, 6]
],
[7, 8, 9]
],
]
Schema:
["value" => ["numbers", ["flatten"]]]
Result:
["value" => [1, 2, 3, 4, 5, 6, 7, 8, 9]]
Sorts and returns given array.
Given:
["numbers" => [3, 5, 4, 1, 2]]
Schema:
["value" => ["numbers", ["sort"]]]
Result:
["value" => [1, 2, 3, 4, 5]]
Sorts reversely and returns given array.
Given:
["numbers" => [3, 5, 4, 1, 2]]
Schema:
["value" => ["numbers", ["sort"]]]
Result:
["value" => [5, 4, 3, 2, 1]]
Returns array containing elements from given array that match the predicates from the params list.
Rules:
- Every predicate has such format
["predicate name", ...parans]
. - Predicates in one filter apply according the "OR" logic.
- To apply "AND" logic use chain of filters.
- Available predicates:
["=", 10]
meansvalue = 10
[">", 10]
meansvalue > 10
[">=", 10]
meansvalue >= 10
["<", 10]
meansvalue < 10
["<=", 10]
meansvalue <= 10
["in", [1, 2]]
meansvalue = 1 OR value = 2
["not in", [1, 2]]
meansvalue != 1 AND value != 2
["between", 1, 5]
means1 <= value <= 5
["between strict", 1, 5]
means1 < value < 5
Given:
["numbers" => [-5, -3, -1, 1, 3, 5]]
Schema:
[
"value" => [
"numbers",
[
"filter",
[[">", 1], ["<", -1]] // value > 1 OR value < -1
],
],
]
Result:
["value" => [-5, -3, 3, 5]]
Returns array of elements with values replaced according to the rules in the params list.
Rules:
- Every rule has such format
["value to replace", "rule name", ...params]
. - Rules in one filter apply according the "OR" logic.
- To apply "AND" logic use chain of filters.
- Available rules:
["=", 10]
meansvalue = 10
[">", 10]
meansvalue > 10
[">=", 10]
meansvalue >= 10
["<", 10]
meansvalue < 10
["<=", 10]
meansvalue <= 10
["in", [1, 2]]
meansvalue = 1 или value = 2
["not in", [1, 2]]
meansvalue != 1 и value != 2
["between", 1, 5]
means1 <= value <= 5
["between strict", 1, 5]
means1 < value < 5
["else"]
— no rules matched for value (If ruleelse
did not use, by default such values are replaced withnull
)
Given:
["numbers" => [-5, -3, -1, 0, 1, 3, 5]]
Schema:
[
"value" => [
"numbers",
[
"replace",
[
["positive", ">", 0],
["negative", "<", 0],
["zero", "else"]
],
],
],
]
Result:
["value" => ["negative", "negative", "negative", "zero", "positive", "positive", "positive"]]
Given:
["numbers" => [-5, -3, -1, 1, 3, 5]]
Schema:
[
"value" => [
"numbers",
[
"filter",
[[">", 1], ["<", -1]] // (value > 1 OR value < -1)
],
// AND
[
"filter",
[[">=", -3]] // value >= -3
],
],
]
Result:
["value" => [-3, 3, 5]]
composer install
composer test-init
composer test
Schemator conforms to the following standards:
- PSR-1 — Basic coding standard
- PSR-4 — Autoloader
- PSR-12 — Extended coding style guide
Schemator is licensed under the MIT License.