A DataModel
provides a lightweight, non-invasive way to hydrate type-safe PHP objects recursively.
- Simplify Object Hydration: A
DataModel
automates the process of resolving and assigning values to properties, ensuring your objects are populated correctly based on their type declarations. - Ensure Type Safety: Type safety is enforced by PHP itself. With a
DataModel
, you can trust that your objects contain the expected types without extra validation. - Reduce Defensive Programming: a
DataModel
allows you to define how each property should be resolved before the object is hydrated. This eliminates the need for downstream defensive programming. - Flexible Value Resolution: With the
#[Describe()]
attribute, you control how values are resolved for each property, including transformations, default values, and custom casting. - Non-Invasive Integration: Simply add the
DataModel
trait to your classes. There’s no need to extend base classes or implement interfaces, keeping your class hierarchy clean.
- Type-Safe: Type-safety is enforced by the PHP language itself.
- Non-Invasive: Simply add the
DataModel
trait to a class. No need to extend, implement, or construct. - Recursive Instantiation: Recursively instantiate classes based on their type.
- Type Casting: Supports primitives, custom classes, enums, and more.
- Life-Cycle Hooks: Run methods before and after a value is resolved with pre and post.
- Transformations: Describe how to resolve a value before instantiation.
- Required Properties: Throw an exception when a property is not set.
- Default Values: Set a default property value.
- Nullable Missing Values: Resolve a missing value as null.
- Remapping: Re-map a key to a property of a different name.
- Ignoring Properties: Ignore a resolving a property.
At its core, a DataModel
uses reflection and PHP attributes to hydrate your objects. When you use the from()
method, it recursively instantiates
classes based on their type hints, resolving values according to the rules you define.
By using the #[Describe()]
attribute, you can specify:
- Transformations: Define how to convert input data before assigning it to a property.
- Life-Cycle Hooks: Run methods before and after a value is resolved.
- Default Values and Required Properties: Ensure properties have sensible defaults or enforce their presence.
- Type Casting: Handle primitives, custom classes, enums, and more.
This approach allows you to centralize value resolution upstream of your business logic, drastically reducing downstream checks.
Traditional defensive programming requires you to scatter validation and type-checking throughout your code, leading to verbosity and potential
oversights. With a DataModel
, you define value resolution logic once, using the #[Describe()]
attribute.
This method reduces boilerplate, minimizes the risk of missing checks, and results in cleaner, more readable code. It shifts the focus from defensive checks to declarative definitions, improving both development speed and code quality.
Projects that use DataModels:
You can install the package via Composer:
composer require zero-to-prod/data-model
- DataModelHelper: Helpers for a
DataModel
. - DataModelFactory: A factory helper to set the value of your
DataModel
. - Transformable: Transform a
DataModel
into different types.
Use the DataModel
trait in a class.
class User
{
use \Zerotoprod\DataModel\DataModel;
public string $name;
public int $age;
}
Use the from
method to instantiate your class, passing an associative array or object.
$User = User::from([
'name' => 'John Doe',
'age' => '30',
]);
echo $User->name; // 'John Doe'
echo $User->age; // 30
A DataModel
recursively instantiates classes based on their type declarations.
If a property’s type hint is a class, its value is passed to that class’s from()
method.
In this example, the address
element is automatically converted into an Address
object,
allowing direct access to its properties: $User->address->city
.
class Address
{
use \Zerotoprod\DataModel\DataModel;
public string $street;
public string $city;
}
class User
{
use \Zerotoprod\DataModel\DataModel;
public string $username;
public Address $address;
}
$User = User::from([
'username' => 'John Doe',
'address' => [
'street' => '123 Main St',
'city' => 'Hometown',
],
]);
echo $User->address->city; // Outputs: Hometown
A DataModel
provides a variety of ways to transform data before the value is assigned to a property.
The Describe
attribute provides a declarative way describe how property values are resolved.
Resolve a value by adding the Describe
attribute to a property.
The Describe
attribute can accept these arguments.
#[\Zerotoprod\DataModel\Describe([
'ignore' // ignores a property
// Re-map a key to a property of a different name
'from' => 'key',
// Runs before 'cast'
'pre' => [MyClass::class, 'preHook']
// Targets the static method: `MyClass::methodName()`
'cast' => [MyClass::class, 'castMethod'],
// 'cast' => 'my_func', // alternately target a function
// Runs after 'cast' passing the resolved value as `$value`
'post' => [MyClass::class, 'postHook']
'default' => 'value',
'required', // Throws an exception if the element is missing
'nullable', // sets the value to null if the element is missing
])]
There is an order of precedence when resolving a value for a property.
- Property-level Cast
- Method-level Cast
- Union Types
- Class-level Casts
- Types that have a concrete static method
from()
. - Native Types
The using the Describe
attribute directly on the property takes the highest precedence.
use Zerotoprod\DataModel\Describe;
class User
{
use \Zerotoprod\DataModel\DataModel;
#[Describe(['cast' => [self::class, 'firstName'], 'function' => 'strtoupper'])]
public string $first_name;
#[Describe(['cast' => 'uppercase'])]
public string $last_name;
#[Describe(['cast' => [self::class, 'fullName']])]
public string $full_name;
private static function firstName(mixed $value, array $context, ?\ReflectionAttribute $ReflectionAttribute, \ReflectionProperty $ReflectionProperty): string
{
return $ReflectionAttribute->getArguments()[0]['function']($value);
}
public static function fullName(mixed $value, array $context, ?\ReflectionAttribute $Attribute, \ReflectionProperty $Property): string
{
return "{$context['first_name']} {$context['last_name']}";
}
}
function uppercase(mixed $value, array $context){
return strtoupper($value);
}
$User = User::from([
'first_name' => 'Jane',
'last_name' => 'Doe',
]);
$User->first_name; // 'JANE'
$User->last_name; // 'DOE'
$User->full_name; // 'Jane Doe'
You can run methods before and after a value is resolved.
You can use pre
to run a void
method before the value is resolved.
use Zerotoprod\DataModel\Describe;
class BaseClass
{
use \Zerotoprod\DataModel\DataModel;
#[Describe(['pre' => [self::class, 'pre'], 'message' => 'Value too large.'])]
public int $int;
public static function pre(mixed $value, array $context, ?\ReflectionAttribute $Attribute, \ReflectionProperty $Property): void
{
if ($value > 10) {
throw new \RuntimeException($Attribute->getArguments()[0]['message']);
}
}
}
You can use post
to run a void
method after the value is resolved.
use Zerotoprod\DataModel\Describe;
class BaseClass
{
use \Zerotoprod\DataModel\DataModel;
public const int = 'int';
#[Describe(['post' => [self::class, 'post'], 'message' => 'Value too large.'])]
public int $int;
public static function post(mixed $value, array $context, ?\ReflectionAttribute $Attribute, \ReflectionProperty $Property): void
{
if ($value > 10) {
throw new \RuntimeException($value.$Attribute->getArguments()[0]['message']);
}
}
}
Use the Describe
attribute to resolve values with class methods. Methods receive $value
and $context
as parameters.
use Zerotoprod\DataModel\Describe;
class User
{
use \Zerotoprod\DataModel\DataModel;
public string $first_name;
public string $last_name;
public string $fullName;
#[Describe('last_name')]
public function lastName(mixed $value, array $context, ?\ReflectionAttribute $Attribute, \ReflectionProperty $Property): string
{
return strtoupper($value);
}
#[Describe('fullName')]
public function fullName(mixed $value, array $context, ?\ReflectionAttribute $Attribute, \ReflectionProperty $Property): string
{
return "{$context['first_name']} {$context['last_name']}";
}
}
$User = User::from([
'first_name' => 'Jane',
'last_name' => 'Doe',
]);
$User->first_name; // 'Jane'
$User->last_name; // 'DOE'
$User->fullName; // 'Jane Doe'
A value passed to property with a union type is directly assigned to the property. If you wish to resolve the value in a specific way, use a class method.
You can define how to resolve different types at the class level.
use Zerotoprod\DataModel\Describe;
function uppercase(mixed $value, array $context){
return strtoupper($value);
}
#[Describe([
'cast' => [
'string' => 'uppercase',
\DateTimeImmutable::class => [self::class, 'toDateTimeImmutable'],
]
])]
class User
{
use \Zerotoprod\DataModel\DataModel;
public string $first_name;
public DateTimeImmutable $registered;
public static function toDateTimeImmutable(mixed $value, array $context): DateTimeImmutable
{
return new DateTimeImmutable($value);
}
}
$User = User::from([
'first_name' => 'Jane',
'registered' => '2015-10-04 17:24:43.000000',
]);
$User->first_name; // 'JANE'
$User->registered->format('l'); // 'Sunday'
Enforce that certain properties are required using the Describe attribute:
use Zerotoprod\DataModel\Describe;
class User
{
use \Zerotoprod\DataModel\DataModel;
#[Describe(['required' => true])]
public string $username;
public string $email;
}
User::from(['email' => 'john@example.com']);
// Throws PropertyRequiredException exception: Property: username is required
You can set a default value for a property like this:
use Zerotoprod\DataModel\Describe;
class User
{
use \Zerotoprod\DataModel\DataModel;
#[Describe(['default' => 'N/A'])]
public string $username;
}
$User = User::from();
echo $User->username // 'N/A'
Note that using null
as a default will not work: #[Describe(['default' => null])]
.
Use #[Describe(['nullable' => true])]
to set a null value.
Set missing values to null by setting ['nullable' => true]
. This can be placed at the class or property level.
This prevents an Error when attempting to assess a property that has not been initialized.
Error: Typed property User::$age must not be accessed before initialization
use Zerotoprod\DataModel\Describe;
#[Describe(['nullable' => true])]
class User
{
use \Zerotoprod\DataModel\DataModel;
public ?string $name;
#[Describe(['nullable' => true])]
public ?int $age;
}
$User = User::from();
echo $User->name; // null
echo $User->age; // null
Note that using null
as a default will not work: #[Describe(['default' => null])]
.
Use #[Describe(['nullable' => true])]
to set a null value.
You can map a key to a property of a different name like this:
use Zerotoprod\DataModel\Describe;
class User
{
use \Zerotoprod\DataModel\DataModel;
#[Describe(['from' => 'firstName'])]
public string $first_name;
}
$User = User::from([
'firstName' => 'John',
]);
echo $User->first_name; // John
You can ignore a property like this:
use Zerotoprod\DataModel\Describe;
class User
{
use \Zerotoprod\DataModel\DataModel;
public string $name;
#[Describe(['ignore' => true])]
public int $age;
}
use Zerotoprod\DataModel\Describe;
class User
{
use \Zerotoprod\DataModel\DataModel;
#[Describe(['from' => 'firstName'])]
public string $first_name;
}
$User = User::from([
'name' => 'John Doe',
'age' => '30',
]);
isset($User->age); // false
This examples uses the DataModelHelper.
composer require zero-to-prod/data-model-helper
use Zerotoprod\DataModel\Describe;
class User
{
use \Zerotoprod\DataModel\DataModel;
use \Zerotoprod\DataModelHelper\DataModelHelper;
/** @var Alias[] $Aliases */
#[Describe([
'cast' => [self::class, 'mapOf'], // Use the mapOf helper method
'type' => Alias::class, // Target type for each item
])]
public array $Aliases;
}
class Alias
{
use \Zerotoprod\DataModel\DataModel;
public string $name;
}
$User = User::from([
'Aliases' => [
['name' => 'John Doe'],
['name' => 'John Smith'],
]
]);
echo $User->Aliases[0]->name; // Outputs: John Doe
echo $User->Aliases[1]->name; // Outputs: John Smith
This examples uses the DataModelHelper and Laravel Collections.
composer require zero-to-prod/data-model-helper
composer require illuminate/collections
use Zerotoprod\DataModel\Describe;
class User
{
use \Zerotoprod\DataModel\DataModel;
use \Zerotoprod\DataModelHelper\DataModelHelper;
/** @var Collection<int, Alias> $Aliases */
#[Describe([
'cast' => [self::class, 'mapOf'],
'type' => Alias::class,
])]
public \Illuminate\Support\Collection $Aliases;
}
class Alias
{
use \Zerotoprod\DataModel\DataModel;
public string $name;
}
$User = User::from([
'Aliases' => [
['name' => 'John Doe'],
['name' => 'John Smith'],
]
]);
echo $User->Aliases->first()->name; // Outputs: John Doe
By leveraging the pre
life-cycle hook, you run a validator before a value is resolved.
use Illuminate\Support\Facades\Validator;
use Zerotoprod\DataModel\Describe;
readonly class FullName
{
use \Zerotoprod\DataModel\DataModel;
#[Describe([
'pre' => [self::class, 'validate'],
'rule' => 'min:2'
])]
public string $first_name;
public static function validate(mixed $value, array $context, ?\ReflectionAttribute $Attribute): void
{
$validator = Validator::make(['value' => $value], ['value' => $Attribute?->getArguments()[0]['rule']]);
if ($validator->fails()) {
throw new \RuntimeException($validator->errors()->toJson());
}
}
}
./vendor/bin/phpunit