Laravel best practice for get data from DB - php

I'm confused about the best way to get data from DB. I have this controller (Task) that get from Task model the tasks of each customers. What's the best way to get these data?
1° Example
In this example I have a "general" function (getTasksCompany) that join the tables (Task and Companies). The showTasks call this function and then use where clause for get only tasks with customer code = 000001
public function showTasks() {
$tasks = $this->getTasksCompany()->where("company_code", "=", "000001")->get();
dd($tasks);
}
public function getTasksCompany() {
$tasks = Task::join("companies AS c", "c.code", "=", "company_code");
return $tasks;
}
2° Example
In this example I have a "specific" function that get tasks from the code in the passed as argument.
public function showTasks2() {
$tasks = $this->getTasksFromCompany("000001");
dd($tasks);
}
public function getTasksFromCompany($company_code) {
$tasks = Task::join("companies AS c", "c.code", "=", "company_code")->where("company_code", "=", $company_code)->get();
return $tasks;
}
3° Example
In this example I have a "general" function (getTasksCompany) that join the tables (Task and Companies) and I use the scope defined from Task model to filter the tasks.
public function showTasks3() {
$tasks = $this->getTasksCompany()->company("000001")->get();
dd($tasks);
}
public function getTasksCompany() {
$tasks = Task::join("companies AS c", "c.code", "=", "company_code");
return $tasks;
}
public function scopeCompany($query, $company_code) {
return $query->where("company_code", "=", $company_code);
}
My question is, what's the good practice to do? And Why?

Based on my understanding, asking for best practices would attract opinionated answer but generally because you use Laravel, I would try as much as possible to make use of the functionalities it provide.
While I would prefer the third example more than the others because using model scope helps to create and bind query builder from an instance of the model. This would make things easier when you reuse this function.
This means you don't need to statically call any query builder method since they bind to the initial model in the first place.
An example if I would do the above I would simply employ Model Relationship that would handle my joins under the hood:
//Company model
public function scopeShowTask($company_code = "000001")
{
return $this->tasks()->where("company_code", "=", $company_code);
}
public function tasks()
{
return $this->hasMany(Task::class, 'company_code', 'code');
}
Using this method helps to construct your query based on the relationship between Task and Company. In order to understand how this works, you should check out Eloquent Relationship
One great advantage of using this method is that you can easily take advantage of the various method laravel provides when you declare a relationship in your model this way. To see some of them, you can check out Querying relationship
PS: Best practice, no, maybe just a better practice given the situation. This answer is open to an update

I suggest that you study eloquent and query builder thoroughly and that's where the best practice is.
If you use eloquent with query builder properly you won't need another function in order fetch the data that you want.
https://laravel.com/docs/5.5/queries
https://laravel.com/docs/5.5/eloquent

Related

Determine if relationship exists in Laravel query

I've inherited a Laravel 5 project at work and would like to know how I should check for the existence of a related model to avoid null exceptions.
BlockDate model
class BlockDate extends Model {
public function claims()
{
return $this->belongsToMany(User::class);
}
}
User model
class User extends Model {
public function blocks()
{
return $this->belongsToMany(BlockDate::class);
}
}
Pivot table
$table->unsignedInteger('user_id');
$table->foreign('user_id')->references('id')->on('users');
$table->unsignedInteger(block_date_id');
$table->foreign('block_date_id')->references('id')->on(block_dates);
Users can claim a range of dates for vacation requests. However, users may have no claims or dates may not have been claimed. I am currently using
if ($user->blocks->count() > 0) {
$dates = $user->blocks->sortByDesc('created_at');
// more logic here....
}
I do not like using count everywhere, is there a way to incorporate the check like:
// I don't know what hasClaimedDates might be
$dates = $user->hasClaimedDates()->blocks->sortByDesc('created_at');
You can use the actual relationship method instead of the magic accessor:
$sortedDates = $user->blocks()->latest()->get();
This will give you an empty collection if no relations are established, but it will not fail on the sorting.
Note: latest() is an equivalent for orderBy('created_at', 'desc') in this case.
By the way, if you use $user->blocks->count(), it will first load all related models into memory and then count on the relation. If you are going to use the related models afterwards, that is fine. But if you don't and you only count them, this is a waste of resources. In this case $user->blocks()->count() is way more performant as it executes a database query that only returns a single number. Take this into consideration especially where you have a lot of related models.
Laravel offers an optional helper method to guard against nulls:
// will return either a collection or null
$dates = optional($user->blocks)->sortByDesc('created_at');

Alter the query builder from a specific model everytime - Laravel 5.3

How do I alter the query builder everytime I'm getting a new model?
I've found that overriding the method below works, but I'm not feeling good doing this. Is there a better way to do this?
So I want ->join() to be executed everytime for a specific model.
!! I don't want to use the protected $with = []; property, cause I don't want extra queries to be executed when not necessary.
public function newQueryWithoutScopes()
{
$builder = $this->newEloquentBuilder(
$this->newBaseQueryBuilder()
);
// Once we have the query builders, we will set the model instances so the
// builder can easily access any information it may need from the model
// while it is constructing and executing various queries against it.
return $builder->setModel($this)->join('join statement comes here')->with($this->with);
}
To affect the query every time a model is used, you can use the newQuery method.
public function newQuery($excludeDeleted = true){
return parent::newQuery()->join('orders', 'users.id', '=', 'orders.user_id');
}
But this will probably break Eloquent since your Model isn't representative of your database model anymore; it is now a Frankenmodel of two separate models.

Laravel 5.1 global scopes... Where should I go?

Well, I've started with Laravel just a few weeks ago, so sorry if I'm repeating something obvious but... here's the thing:
I've got a couple of query scopes in a Photo model:
public function scopeSkipFirst($query)
{
return $query->where('id', '>', 1);
}
public function scopeSearch($query, $search)
{
return $query->where('title', 'LIKE', "%$search%");
}
Now, I want the first one to be executed everytime I make an Eloquent query by that model, like in Photo::all(); and I want the second query scope to be available to any other model.
What's the best practice way to do this? Are both scenarios global scopes? I've been reading a few posts (like this one), but I have no clear ideas about which documentation should I refer (Laravel's 4.2 # Global scopes section; 5.1 Eloquent's # Events; ¿?).
If you want all of your models to have a scopeSearch() method, then it would make sense to move it to a trait and then apply that trait to your models. Something like Searchable:
trait Searchable
{
public function scopeSearch($query, $search)
{
return $query->where($this->getSearchField(), 'LIKE', "%$search%");
}
protected function getSearchField()
{
return 'title';
}
}
I’ve also made the column configurable as not all models may have a title column. For example, when I create an Article model in my applications I’ll have a headline column instead of title.
With the above trait, you can make a model searchable by implementing the trait:
class Photo extends Model
{
use Searchable;
}
You don’t want to make it a global scope. Global scopes are applied to every query. Not every query is going to be a search query, and there also won’t be anything to pass as a search query.
The scopeSkipFirst() method, could be made a global scope if you wanted that to apply any time you queried your Photo model, but I can’t think of a reason why you would want to always skip a particular record. Why have it in the database if you never want to display it?

Using a query scope in a collection laravel

My Association model looks like this (irrelevant code redacted):
class Association extends Model
{
public function members() {
return $this->hasMany('App\Member');
}
}
My Member model looks like this:
class Member extends Model
{
public function scopeActive($query) {
return $query->where('membership_ended_at', Null);
}
public function scopeInactive($query) {
return $query->whereNotNull('membership_ended_at');
}
}
This is what I want to be able to do:
$association = Association::find(49);
$association->members->active()->count();
Now, I'm aware there's a difference between a Query and a Collection. But what I'm basically asking is if there's some kind of similar scope for collections. Of course, the optimal solution would be to not have to write TWO active methods, but use one for both purposes.
(question already answered in the comments, but might as well write a proper answer)
It is not possible to use a query scope in a Colletion, since query scope is a concept used in Eloquent to add constraints to a database query while Collections are just a collection of things (data, objects, etc).
In your case, what you need to do is to change this line:
$association->members->active()->count();
to:
$association->members()->active()->count();
This works because when we call members as a method, we are getting a QueryBuilder instance, and with that we can start chaining scopes to the query before calling the count method.

Proper Repository Pattern Design in PHP?

Preface: I'm attempting to use the repository pattern in an MVC architecture with relational databases.
I've recently started learning TDD in PHP, and I'm realizing that my database is coupled much too closely with the rest of my application. I've read about repositories and using an IoC container to "inject" it into my controllers. Very cool stuff. But now have some practical questions about repository design. Consider the follow example.
<?php
class DbUserRepository implements UserRepositoryInterface
{
protected $db;
public function __construct($db)
{
$this->db = $db;
}
public function findAll()
{
}
public function findById($id)
{
}
public function findByName($name)
{
}
public function create($user)
{
}
public function remove($user)
{
}
public function update($user)
{
}
}
Issue #1: Too many fields
All of these find methods use a select all fields (SELECT *) approach. However, in my apps, I'm always trying to limit the number of fields I get, as this often adds overhead and slows things down. For those using this pattern, how do you deal with this?
Issue #2: Too many methods
While this class looks nice right now, I know that in a real-world app I need a lot more methods. For example:
findAllByNameAndStatus
findAllInCountry
findAllWithEmailAddressSet
findAllByAgeAndGender
findAllByAgeAndGenderOrderByAge
Etc.
As you can see, there could be a very, very long list of possible methods. And then if you add in the field selection issue above, the problem worsens. In the past I'd normally just put all this logic right in my controller:
<?php
class MyController
{
public function users()
{
$users = User::select('name, email, status')
->byCountry('Canada')->orderBy('name')->rows();
return View::make('users', array('users' => $users));
}
}
With my repository approach, I don't want to end up with this:
<?php
class MyController
{
public function users()
{
$users = $this->repo->get_first_name_last_name_email_username_status_by_country_order_by_name('Canada');
return View::make('users', array('users' => $users))
}
}
Issue #3: Impossible to match an interface
I see the benefit in using interfaces for repositories, so I can swap out my implementation (for testing purposes or other). My understanding of interfaces is that they define a contract that an implementation must follow. This is great until you start adding additional methods to your repositories like findAllInCountry(). Now I need to update my interface to also have this method, otherwise, other implementations may not have it, and that could break my application. By this feels insane...a case of the tail wagging the dog.
Specification Pattern?
This leads me to believe that repository should only have a fixed number of methods (like save(), remove(), find(), findAll(), etc). But then how do I run specific lookups? I've heard of the Specification Pattern, but it seems to me that this only reduces an entire set of records (via IsSatisfiedBy()), which clearly has major performance issues if you're pulling from a database.
Help?
Clearly, I need to rethink things a little when working with repositories. Can anyone enlighten on how this is best handled?
I thought I'd take a crack at answering my own question. What follows is just one way of solving the issues 1-3 in my original question.
Disclaimer: I may not always use the right terms when describing patterns or techniques. Sorry for that.
The Goals:
Create a complete example of a basic controller for viewing and editing Users.
All code must be fully testable and mockable.
The controller should have no idea where the data is stored (meaning it can be changed).
Example to show a SQL implementation (most common).
For maximum performance, controllers should only receive the data they need—no extra fields.
Implementation should leverage some type of data mapper for ease of development.
Implementation should have the ability to perform complex data lookups.
The Solution
I'm splitting my persistent storage (database) interaction into two categories: R (Read) and CUD (Create, Update, Delete). My experience has been that reads are really what causes an application to slow down. And while data manipulation (CUD) is actually slower, it happens much less frequently, and is therefore much less of a concern.
CUD (Create, Update, Delete) is easy. This will involve working with actual models, which are then passed to my Repositories for persistence. Note, my repositories will still provide a Read method, but simply for object creation, not display. More on that later.
R (Read) is not so easy. No models here, just value objects. Use arrays if you prefer. These objects may represent a single model or a blend of many models, anything really. These are not very interesting on their own, but how they are generated is. I'm using what I'm calling Query Objects.
The Code:
User Model
Let's start simple with our basic user model. Note that there is no ORM extending or database stuff at all. Just pure model glory. Add your getters, setters, validation, whatever.
class User
{
public $id;
public $first_name;
public $last_name;
public $gender;
public $email;
public $password;
}
Repository Interface
Before I create my user repository, I want to create my repository interface. This will define the "contract" that repositories must follow in order to be used by my controller. Remember, my controller will not know where the data is actually stored.
Note that my repositories will only every contain these three methods. The save() method is responsible for both creating and updating users, simply depending on whether or not the user object has an id set.
interface UserRepositoryInterface
{
public function find($id);
public function save(User $user);
public function remove(User $user);
}
SQL Repository Implementation
Now to create my implementation of the interface. As mentioned, my example was going to be with an SQL database. Note the use of a data mapper to prevent having to write repetitive SQL queries.
class SQLUserRepository implements UserRepositoryInterface
{
protected $db;
public function __construct(Database $db)
{
$this->db = $db;
}
public function find($id)
{
// Find a record with the id = $id
// from the 'users' table
// and return it as a User object
return $this->db->find($id, 'users', 'User');
}
public function save(User $user)
{
// Insert or update the $user
// in the 'users' table
$this->db->save($user, 'users');
}
public function remove(User $user)
{
// Remove the $user
// from the 'users' table
$this->db->remove($user, 'users');
}
}
Query Object Interface
Now with CUD (Create, Update, Delete) taken care of by our repository, we can focus on the R (Read). Query objects are simply an encapsulation of some type of data lookup logic. They are not query builders. By abstracting it like our repository we can change it's implementation and test it easier. An example of a Query Object might be an AllUsersQuery or AllActiveUsersQuery, or even MostCommonUserFirstNames.
You may be thinking "can't I just create methods in my repositories for those queries?" Yes, but here is why I'm not doing this:
My repositories are meant for working with model objects. In a real world app, why would I ever need to get the password field if I'm looking to list all my users?
Repositories are often model specific, yet queries often involve more than one model. So what repository do you put your method in?
This keeps my repositories very simple—not an bloated class of methods.
All queries are now organized into their own classes.
Really, at this point, repositories exist simply to abstract my database layer.
For my example I'll create a query object to lookup "AllUsers". Here is the interface:
interface AllUsersQueryInterface
{
public function fetch($fields);
}
Query Object Implementation
This is where we can use a data mapper again to help speed up development. Notice that I am allowing one tweak to the returned dataset—the fields. This is about as far as I want to go with manipulating the performed query. Remember, my query objects are not query builders. They simply perform a specific query. However, since I know that I'll probably be using this one a lot, in a number of different situations, I'm giving myself the ability to specify the fields. I never want to return fields I don't need!
class AllUsersQuery implements AllUsersQueryInterface
{
protected $db;
public function __construct(Database $db)
{
$this->db = $db;
}
public function fetch($fields)
{
return $this->db->select($fields)->from('users')->orderBy('last_name, first_name')->rows();
}
}
Before moving on to the controller, I want to show another example to illustrate how powerful this is. Maybe I have a reporting engine and need to create a report for AllOverdueAccounts. This could be tricky with my data mapper, and I may want to write some actual SQL in this situation. No problem, here is what this query object could look like:
class AllOverdueAccountsQuery implements AllOverdueAccountsQueryInterface
{
protected $db;
public function __construct(Database $db)
{
$this->db = $db;
}
public function fetch()
{
return $this->db->query($this->sql())->rows();
}
public function sql()
{
return "SELECT...";
}
}
This nicely keeps all my logic for this report in one class, and it's easy to test. I can mock it to my hearts content, or even use a different implementation entirely.
The Controller
Now the fun part—bringing all the pieces together. Note that I am using dependency injection. Typically dependencies are injected into the constructor, but I actually prefer to inject them right into my controller methods (routes). This minimizes the controller's object graph, and I actually find it more legible. Note, if you don't like this approach, just use the traditional constructor method.
class UsersController
{
public function index(AllUsersQueryInterface $query)
{
// Fetch user data
$users = $query->fetch(['first_name', 'last_name', 'email']);
// Return view
return Response::view('all_users.php', ['users' => $users]);
}
public function add()
{
return Response::view('add_user.php');
}
public function insert(UserRepositoryInterface $repository)
{
// Create new user model
$user = new User;
$user->first_name = $_POST['first_name'];
$user->last_name = $_POST['last_name'];
$user->gender = $_POST['gender'];
$user->email = $_POST['email'];
// Save the new user
$repository->save($user);
// Return the id
return Response::json(['id' => $user->id]);
}
public function view(SpecificUserQueryInterface $query, $id)
{
// Load user data
if (!$user = $query->fetch($id, ['first_name', 'last_name', 'gender', 'email'])) {
return Response::notFound();
}
// Return view
return Response::view('view_user.php', ['user' => $user]);
}
public function edit(SpecificUserQueryInterface $query, $id)
{
// Load user data
if (!$user = $query->fetch($id, ['first_name', 'last_name', 'gender', 'email'])) {
return Response::notFound();
}
// Return view
return Response::view('edit_user.php', ['user' => $user]);
}
public function update(UserRepositoryInterface $repository)
{
// Load user model
if (!$user = $repository->find($id)) {
return Response::notFound();
}
// Update the user
$user->first_name = $_POST['first_name'];
$user->last_name = $_POST['last_name'];
$user->gender = $_POST['gender'];
$user->email = $_POST['email'];
// Save the user
$repository->save($user);
// Return success
return true;
}
public function delete(UserRepositoryInterface $repository)
{
// Load user model
if (!$user = $repository->find($id)) {
return Response::notFound();
}
// Delete the user
$repository->delete($user);
// Return success
return true;
}
}
Final Thoughts:
The important things to note here are that when I'm modifying (creating, updating or deleting) entities, I'm working with real model objects, and performing the persistance through my repositories.
However, when I'm displaying (selecting data and sending it to the views) I'm not working with model objects, but rather plain old value objects. I only select the fields I need, and it's designed so I can maximum my data lookup performance.
My repositories stay very clean, and instead this "mess" is organized into my model queries.
I use a data mapper to help with development, as it's just ridiculous to write repetitive SQL for common tasks. However, you absolutely can write SQL where needed (complicated queries, reporting, etc.). And when you do, it's nicely tucked away into a properly named class.
I'd love to hear your take on my approach!
July 2015 Update:
I've been asked in the comments where I ended up with all this. Well, not that far off actually. Truthfully, I still don't really like repositories. I find them overkill for basic lookups (especially if you're already using an ORM), and messy when working with more complicated queries.
I generally work with an ActiveRecord style ORM, so most often I'll just reference those models directly throughout my application. However, in situations where I have more complex queries, I'll use query objects to make these more reusable. I should also note that I always inject my models into my methods, making them easier to mock in my tests.
Based on my experience, here are some answers to your questions:
Q: How do we deal with bringing back fields we don't need?
A: From my experience this really boils down to dealing with complete entities versus ad-hoc queries.
A complete entity is something like a User object. It has properties and methods, etc. It's a first class citizen in your codebase.
An ad-hoc query returns some data, but we don't know anything beyond that. As the data gets passed around the application, it is done so without context. Is it a User? A User with some Order information attached? We don't really know.
I prefer working with full entities.
You are right that you will often bring back data you won't use, but you can address this in various ways:
Aggressively cache the entities so you only pay the read price once from the database.
Spend more time modeling your entities so they have good distinctions between them. (Consider splitting a large entity into two smaller entities, etc.)
Consider having multiple versions of entities. You can have a User for the back end and maybe a UserSmall for AJAX calls. One might have 10 properties and one has 3 properties.
The downsides of working with ad-hoc queries:
You end up with essentially the same data across many queries. For example, with a User, you'll end up writing essentially the same select * for many calls. One call will get 8 of 10 fields, one will get 5 of 10, one will get 7 of 10. Why not replace all with one call that gets 10 out of 10? The reason this is bad is that it is murder to re-factor/test/mock.
It becomes very hard to reason at a high level about your code over time. Instead of statements like "Why is the User so slow?" you end up tracking down one-off queries and so bug fixes tend to be small and localized.
It's really hard to replace the underlying technology. If you store everything in MySQL now and want to move to MongoDB, it's a lot harder to replace 100 ad-hoc calls than it is a handful of entities.
Q: I will have too many methods in my repository.
A: I haven't really seen any way around this other than consolidating calls. The method calls in your repository really map to features in your application. The more features, the more data specific calls. You can push back on features and try to merge similar calls into one.
The complexity at the end of the day has to exist somewhere. With a repository pattern we've pushed it into the repository interface instead of maybe making a bunch of stored procedures.
Sometimes I have to tell myself, "Well it had to give somewhere! There are no silver bullets."
I use the following interfaces:
Repository - loads, inserts, updates and deletes entities
Selector - finds entities based on filters, in a repository
Filter - encapsulates the filtering logic
My Repository is database agnostic; in fact it doesn't specify any persistence; it could be anything: SQL database, xml file, remote service, an alien from outer space etc.
For searching capabilities, the Repository constructs an Selector which can be filtered, LIMIT-ed, sorted and counted. In the end, the selector fetches one or more Entities from the persistence.
Here is some sample code:
<?php
interface Repository
{
public function addEntity(Entity $entity);
public function updateEntity(Entity $entity);
public function removeEntity(Entity $entity);
/**
* #return Entity
*/
public function loadEntity($entityId);
public function factoryEntitySelector():Selector
}
interface Selector extends \Countable
{
public function count();
/**
* #return Entity[]
*/
public function fetchEntities();
/**
* #return Entity
*/
public function fetchEntity();
public function limit(...$limit);
public function filter(Filter $filter);
public function orderBy($column, $ascending = true);
public function removeFilter($filterName);
}
interface Filter
{
public function getFilterName();
}
Then, one implementation:
class SqlEntityRepository
{
...
public function factoryEntitySelector()
{
return new SqlSelector($this);
}
...
}
class SqlSelector implements Selector
{
...
private function adaptFilter(Filter $filter):SqlQueryFilter
{
return (new SqlSelectorFilterAdapter())->adaptFilter($filter);
}
...
}
class SqlSelectorFilterAdapter
{
public function adaptFilter(Filter $filter):SqlQueryFilter
{
$concreteClass = (new StringRebaser(
'Filter\\', 'SqlQueryFilter\\'))
->rebase(get_class($filter));
return new $concreteClass($filter);
}
}
The ideea is that the generic Selector uses Filter but the implementation SqlSelector uses SqlFilter; the SqlSelectorFilterAdapter adapts a generic Filter to a concrete SqlFilter.
The client code creates Filter objects (that are generic filters) but in the concrete implementation of the selector those filters are transformed in SQL filters.
Other selector implementations, like InMemorySelector, transform from Filter to InMemoryFilter using their specific InMemorySelectorFilterAdapter; so, every selector implementation comes with its own filter adapter.
Using this strategy my client code (in the bussines layer) doesn't care about a specific repository or selector implementation.
/** #var Repository $repository*/
$selector = $repository->factoryEntitySelector();
$selector->filter(new AttributeEquals('activated', 1))->limit(2)->orderBy('username');
$activatedUserCount = $selector->count(); // evaluates to 100, ignores the limit()
$activatedUsers = $selector->fetchEntities();
P.S. This is a simplification of my real code
I'll add a bit on this as I am currently trying to grasp all of this myself.
#1 and 2
This is a perfect place for your ORM to do the heavy lifting. If you are using a model that implements some kind of ORM, you can just use it's methods to take care of these things. Make your own orderBy functions that implement the Eloquent methods if you need to. Using Eloquent for instance:
class DbUserRepository implements UserRepositoryInterface
{
public function findAll()
{
return User::all();
}
public function get(Array $columns)
{
return User::select($columns);
}
What you seem to be looking for is an ORM. No reason your Repository can't be based around one. This would require User extend eloquent, but I personally don't see that as a problem.
If you do however want to avoid an ORM, you would then have to "roll your own" to get what you're looking for.
#3
Interfaces aren't supposed be hard and fast requirements. Something can implement an interface and add to it. What it can't do is fail to implement a required function of that interface. You can also extend interfaces like classes to keep things DRY.
That said, I'm just starting to get a grasp, but these realizations have helped me.
I can only comment on the way we (at my company) deal with this. First of all performance is not too much of an issue for us, but having clean/proper code is.
First of all we define Models such as a UserModel that uses an ORM to create UserEntity objects. When a UserEntity is loaded from a model all fields are loaded. For fields referencing foreign entities we use the appropriate foreign model to create the respective entities. For those entities the data will be loaded ondemand. Now your initial reaction might be ...???...!!! let me give you an example a bit of an example:
class UserEntity extends PersistentEntity
{
public function getOrders()
{
$this->getField('orders'); //OrderModel creates OrderEntities with only the ID's set
}
}
class UserModel {
protected $orm;
public function findUsers(IGetOptions $options = null)
{
return $orm->getAllEntities(/*...*/); // Orm creates a list of UserEntities
}
}
class OrderEntity extends PersistentEntity {} // user your imagination
class OrderModel
{
public function findOrdersById(array $ids, IGetOptions $options = null)
{
//...
}
}
In our case $db is an ORM that is able to load entities. The model instructs the ORM to load a set of entities of a specific type. The ORM contains a mapping and uses that to inject all the fields for that entity in to the entity. For foreign fields however only the id's of those objects are loaded. In this case the OrderModel creates OrderEntitys with only the id's of the referenced orders. When PersistentEntity::getField gets called by the OrderEntity the entity instructs it's model to lazy load all the fields into the OrderEntitys. All the OrderEntitys associated with one UserEntity are treated as one result-set and will be loaded at once.
The magic here is that our model and ORM inject all data into the entities and that entities merely provide wrapper functions for the generic getField method supplied by PersistentEntity. To summarize we always load all the fields, but fields referencing a foreign entity are loaded when necessary. Just loading a bunch of fields is not really a performance issue. Load all possible foreign entities however would be a HUGE performance decrease.
Now on to loading a specific set of users, based on a where clause. We provide an object oriented package of classes that allow you to specify simple expression that can be glued together. In the example code I named it GetOptions. It's a wrapper for all possible options for a select query. It contains a collection of where clauses, a group by clause and everything else. Our where clauses are quite complicated but you could obviously make a simpler version easily.
$objOptions->getConditionHolder()->addConditionBind(
new ConditionBind(
new Condition('orderProduct.product', ICondition::OPERATOR_IS, $argObjProduct)
)
);
A simplest version of this system would be to pass the WHERE part of the query as a string directly to the model.
I'm sorry for this quite complicated response. I tried to summarize our framework as quickly and clear as possible. If you have any additional questions feel free to ask them and I'll update my answer.
EDIT: Additionally if you really don't want to load some fields right away you could specify a lazy loading option in your ORM mapping. Because all fields are eventually loaded through the getField method you could load some fields last minute when that method is called. This is not a very big problem in PHP, but I would not recommend for other systems.
These are some different solutions I've seen. There are pros and cons to each of them, but it is for you to decide.
Issue #1: Too many fields
This is an important aspect especially when you take in to account Index-Only Scans. I see two solutions to dealing with this problem. You can update your functions to take in an optional array parameter that would contain a list of a columns to return. If this parameter is empty you'd return all of the columns in the query. This can be a little weird; based off the parameter you could retrieve an object or an array. You could also duplicate all of your functions so that you have two distinct functions that run the same query, but one returns an array of columns and the other returns an object.
public function findColumnsById($id, array $columns = array()){
if (empty($columns)) {
// use *
}
}
public function findById($id) {
$data = $this->findColumnsById($id);
}
Issue #2: Too many methods
I briefly worked with Propel ORM a year ago and this is based off what I can remember from that experience. Propel has the option to generate its class structure based off the existing database schema. It creates two objects for each table. The first object is a long list of access function similar to what you have currently listed; findByAttribute($attribute_value). The next object inherits from this first object. You can update this child object to build in your more complex getter functions.
Another solution would be using __call() to map non defined functions to something actionable. Your __call method would be would be able to parse the findById and findByName into different queries.
public function __call($function, $arguments) {
if (strpos($function, 'findBy') === 0) {
$parameter = substr($function, 6, strlen($function));
// SELECT * FROM $this->table_name WHERE $parameter = $arguments[0]
}
}
I hope this helps at least some what.
Issue #3: Impossible to match an interface
I see the benefit in using interfaces for repositories, so I can swap
out my implementation (for testing purposes or other). My
understanding of interfaces is that they define a contract that an
implementation must follow. This is great until you start adding
additional methods to your repositories like findAllInCountry(). Now I
need to update my interface to also have this method, otherwise, other
implementations may not have it, and that could break my application.
By this feels insane...a case of the tail wagging the dog.
My gut tells me this maybe requires an interface that implements query optimized methods alongside generic methods. Performance sensitive queries should have targeted methods, while infrequent or light-weight queries get handled by a generic handler, maybe the the expense of the controller doing a little more juggling.
The generic methods would allow any query to be implemented, and so would prevent breaking changes during a transition period. The targeted methods allow you to optimize a call when it makes sense to, and it can be applied to multiple service providers.
This approach would be akin to hardware implementations performing specific optimized tasks, while software implementations do the light work or flexible implementation.
I think graphQL is a good candidate in such a case to provide a large scale query language without increasing the complexity of data repositories.
However, there's another solution if you don't want to go for the graphQL for now. By using a DTO where an object is used for carring the data between processes, in this case between the service/controller and the repository.
An elegant answer is already provided above, however I'll try to give another example that I think it's simpler and could serve as a starting point for a new project.
As shown in the code, we would need only 4 methods for CRUD operations. the find method would be used for listing and reading by passing object argument.
Backend services could build the defined query object based on a URL query string or based on specific parameters.
The query object (SomeQueryDto) could also implement specific interface if needed. and is easy to be extended later without adding complexity.
<?php
interface SomeRepositoryInterface
{
public function create(SomeEnitityInterface $entityData): SomeEnitityInterface;
public function update(SomeEnitityInterface $entityData): SomeEnitityInterface;
public function delete(int $id): void;
public function find(SomeEnitityQueryInterface $query): array;
}
class SomeRepository implements SomeRepositoryInterface
{
public function find(SomeQueryDto $query): array
{
$qb = $this->getQueryBuilder();
foreach ($query->getSearchParameters() as $attribute) {
$qb->where($attribute['field'], $attribute['operator'], $attribute['value']);
}
return $qb->get();
}
}
/**
* Provide query data to search for tickets.
*
* #method SomeQueryDto userId(int $id, string $operator = null)
* #method SomeQueryDto categoryId(int $id, string $operator = null)
* #method SomeQueryDto completedAt(string $date, string $operator = null)
*/
class SomeQueryDto
{
/** #var array */
const QUERYABLE_FIELDS = [
'id',
'subject',
'user_id',
'category_id',
'created_at',
];
/** #var array */
const STRING_DB_OPERATORS = [
'eq' => '=', // Equal to
'gt' => '>', // Greater than
'lt' => '<', // Less than
'gte' => '>=', // Greater than or equal to
'lte' => '<=', // Less than or equal to
'ne' => '<>', // Not equal to
'like' => 'like', // Search similar text
'in' => 'in', // one of range of values
];
/**
* #var array
*/
private $searchParameters = [];
const DEFAULT_OPERATOR = 'eq';
/**
* Build this query object out of query string.
* ex: id=gt:10&id=lte:20&category_id=in:1,2,3
*/
public static function buildFromString(string $queryString): SomeQueryDto
{
$query = new self();
parse_str($queryString, $queryFields);
foreach ($queryFields as $field => $operatorAndValue) {
[$operator, $value] = explode(':', $operatorAndValue);
$query->addParameter($field, $operator, $value);
}
return $query;
}
public function addParameter(string $field, string $operator, $value): SomeQueryDto
{
if (!in_array($field, self::QUERYABLE_FIELDS)) {
throw new \Exception("$field is invalid query field.");
}
if (!array_key_exists($operator, self::STRING_DB_OPERATORS)) {
throw new \Exception("$operator is invalid query operator.");
}
if (!is_scalar($value)) {
throw new \Exception("$value is invalid query value.");
}
array_push(
$this->searchParameters,
[
'field' => $field,
'operator' => self::STRING_DB_OPERATORS[$operator],
'value' => $value
]
);
return $this;
}
public function __call($name, $arguments)
{
// camelCase to snake_case
$field = strtolower(preg_replace('/(?<!^)[A-Z]/', '_$0', $name));
if (in_array($field, self::QUERYABLE_FIELDS)) {
return $this->addParameter($field, $arguments[1] ?? self::DEFAULT_OPERATOR, $arguments[0]);
}
}
public function getSearchParameters()
{
return $this->searchParameters;
}
}
Example usage:
$query = new SomeEnitityQuery();
$query->userId(1)->categoryId(2, 'ne')->createdAt('2020-03-03', 'lte');
$entities = $someRepository->find($query);
// Or by passing the HTTP query string
$query = SomeEnitityQuery::buildFromString('created_at=gte:2020-01-01&category_id=in:1,2,3');
$entities = $someRepository->find($query);
I suggest https://packagist.org/packages/prettus/l5-repository as vendor to implement Repositories/Criterias etc ... in Laravel5 :D
I agree with #ryan1234 that you should pass around complete objects within the code and should use generic query methods to get those objects.
Model::where(['attr1' => 'val1'])->get();
For external/endpoint usage I really like the GraphQL method.
POST /api/graphql
{
query: {
Model(attr1: 'val1') {
attr2
attr3
}
}
}
class Criteria {}
class Select {}
class Count {}
class Delete {}
class Update {}
class FieldFilter {}
class InArrayFilter {}
// ...
$crit = new Criteria();
$filter = new FieldFilter();
$filter->set($criteria, $entity, $property, $value);
$select = new Select($criteria);
$count = new Count($criteria);
$count->getRowCount();
$select->fetchOne(); // fetchAll();
So i think

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