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My understanding is that a facade is used as an alternative to dependency injection. Please correct if I'm mistaken. What is not clear is when one should use one or the other.
What are the advantages/disadvantages of each approach? How should I determine when to use one or the other?
Lastly, why not use both? I can create a facade that references an interface. It seems Sentry 2 is written this way. Is there a best practice?
FACADES
Facades are not an alternative to dependency injection.
Laravel Facade is an implementation of the Service Locator Pattern, creating a clean and beautiful way of accessing objects:
MyClass::doSomething();
This is the PHP syntax for a static methods, but Laravel changes the game and make them non-static behind the scenes, giving you a beautiful, enjoyable and testable way of writing your applications.
DEPENDENCY INJECTION
Dependency Injection is, basically, a way of passing parameters to your constructors and methods while automatically instatiating them.
class MyClass {
private $property;
public function __construct(MyOtherClass $property)
{
/// Here you can use the magic of Dependency Injection
$this->property = $property
/// $property already is an object of MyOtherClass
}
}
A better construction of it would be using Interfaces on your Dependency Injected constructors:
class MyClass {
private $property;
public function __construct(MyInterface $property)
{
/// Here you can use the magic of Dependency Injection
$this->property = $property
/// $property will receive an object of a concrete class that implements MyInterface
/// This class should be defined in Laravel elsewhere, but this is a way of also make
/// your application easy to maintain, because you can swap implementations of your interfaces
/// easily
}
}
But note that in Laravel you can inject classes and interfaces the same way. To inject interfaces you just have to tell it wich one will be this way:
App::bind('MyInterface', 'MyOtherClass');
This will tell Laravel that every time one of your methods needs an instance of MyInterface it should give it one of MyOtherClass.
What happens here is that this constuctor has a "dependency": MyOtherClass, which will be automatically injected by Laravel using the IoC container. So, when you create an instance of MyClass, Laravel automatically will create an instance of MyOtherClass and put it in the variable $class.
Dependency Injection is just an odd jargon developers created to do something as simple as "automatic generation of parameters".
WHEN TO USE ONE OR THE OTHER?
As you can see, they are completely different things, so you won't ever need to decide between them, but you will have to decide where go to with one or the other in different parts of your application.
Use Facades to ease the way you write your code. For example: it's a good practice to create packages for your application modules, so, to create Facades for those packages is also a way to make them seem like a Laravel public class and accessing them using the static syntax.
Use Dependency Injection every time your class needs to use data or processing from another class. It will make your code testable, because you will be able to "inject" a mock of those dependencies into your class and you will be also exercising the single responsibility principle (take a look at the SOLID principles).
Facades, as noted, are intended to simplify a potentially complicated interface.
Facades are still testable
Laravel's implementation goes a step further and allows you to define the base-class that the Facade "points" to.
This gives a developer the ability to "mock" a Facade - by switching the base-class out with a mock object.
In that sense, you can use them and still have testable code. This is where some confusion lies within the PHP community.
DI is often cited as making your code testable - they make mocking class dependencies easy. (Sidenote: Interfaces and DI have other important reasons for existing!)
Facades, on the other hand, are often cited as making testing harder because you can't "simply inject a mock object" into whatever code you're testing. However, as noted, you can in fact "mock" them.
Facade vs DI
This is where people get confused regarding whether Facades are an alternative to DI or not.
In a sense, they both add a dependency to your class - You can either use DI to add a dependency or you can use a Facade directly - FacadeName::method($param);. (Hopefully you are not instantiating any class directly within another :D ).
This does not make Facades an alternative to DI, but instead, within Laravel, does create a situation where you may decide to add class dependencies one of 2 ways - either using DI or by using a Facade. (You can, of course, use other ways. These "2 ways" are just the most-often used "testable way").
Laravel's Facades are an implementation of the Service Locator pattern, not the Facade pattern.
In my opinion you should avoid service locator within your domain, opting to only use it in your service and web transport layers.
http://martinfowler.com/articles/injection.html#UsingAServiceLocator
I think that in terms of laravel Facades help you keep you code simple and still testable since you can mock facades however might be a bit harder to tell a controllers dependencies if you use facades since they are probably all over the place in your code.
With dependency injection you need to write a bit more code since you need to deal with creating interfaces and services to handle the depenancies however Its a lot more clear later on what a controller depends on since these are clearly mentioned in the controller constructor.
I guess it's a matter of deciding which method you prefer using
I'm running Pharo and I'm just in a use case that sort of screams for Dependency Injection à la Guice. Is there something similar for Smalltalk?
I understand that you can sort of do it all by foot, by just passing in your dependencies explicitly. But that feels awkward and verbose to me.
There is a Smalltalk dialect with strong emphasis on dependency injection. It extends the language such that not only method names but also class names use a dynamic lookup. The novel lookup of class names is most similar to that of methods, except that bubbles up through a series of nested classes rather than along an inheritance chain. Thus you can change the injected classes by changing the nesting environment.
To learn more about the dialect, follow this link.
With Guice, it looks like you define your classes to take certain interfaces as constructor parameters. Then you tell Guice "this interface maps to that class implementing said interface".
That sort've thing is completely unnecessary in Smalltalk, because Smalltalk classes only care about protocols.
If we translated the example into Smalltalk, we could pass any object we liked into the RealBillingService's constructor, as long as that object responded to #logChargeResult: and #logConnectException:, i.e., as long as that object implemented the protocol required of a TransactionLog.
Here's a link to a similar answer to the above.
I am not really an expert but I found this article on google: http://codebetter.com/blogs/jeremy.miller/archive/2006/05/05/144172.aspx
I hope this will lead you in the right direction.
:)
I'm refactoring a class and adding a new dependency to it. The class is currently taking its existing dependencies in the constructor. So for consistency, I add the parameter to the constructor.
Of course, there are a few subclasses plus even more for unit tests, so now I am playing the game of going around altering all the constructors to match, and it's taking ages.
It makes me think that using properties with setters is a better way of getting dependencies. I don't think injected dependencies should be part of the interface to constructing an instance of a class. You add a dependency and now all your users (subclasses and anyone instantiating you directly) suddenly know about it. That feels like a break of encapsulation.
This doesn't seem to be the pattern with the existing code here, so I am looking to find out what the general consensus is, pros and cons of constructors versus properties. Is using property setters better?
Well, it depends :-).
If the class cannot do its job without the dependency, then add it to the constructor. The class needs the new dependency, so you want your change to break things. Also, creating a class that is not fully initialized ("two-step construction") is an anti-pattern (IMHO).
If the class can work without the dependency, a setter is fine.
The users of a class are supposed to know about the dependencies of a given class. If I had a class that, for example, connected to a database, and didn't provide a means to inject a persistence layer dependency, a user would never know that a connection to the database would have to be available. However, if I alter the constructor I let the users know that there is a dependency on the persistence layer.
Also, to prevent yourself from having to alter every use of the old constructor, simply apply constructor chaining as a temporary bridge between the old and new constructor.
public class ClassExample
{
public ClassExample(IDependencyOne dependencyOne, IDependencyTwo dependencyTwo)
: this (dependnecyOne, dependencyTwo, new DependnecyThreeConcreteImpl())
{ }
public ClassExample(IDependencyOne dependencyOne, IDependencyTwo dependencyTwo, IDependencyThree dependencyThree)
{
// Set the properties here.
}
}
One of the points of dependency injection is to reveal what dependencies the class has. If the class has too many dependencies, then it may be time for some refactoring to take place: Does every method of the class use all the dependencies? If not, then that's a good starting point to see where the class could be split up.
Of course, putting on the constructor means that you can validate all at once. If you assign things into read-only fields then you have some guarantees about your object's dependencies right from construction time.
It is a real pain adding new dependencies, but at least this way the compiler keeps complaining until it's correct. Which is a good thing, I think.
If you have large number of optional dependencies (which is already a smell) then probably setter injection is the way to go. Constructor injection better reveals your dependencies though.
The general preferred approach is to use constructor injection as much as possible.
Constructor injection exactly states what are the required dependencies for the object to function properly - nothing is more annoying than newing up an object and having it crashing when calling a method on it because some dependency is not set. The object returned by a constructor should be in a working state.
Try to have only one constructor, it keeps the design simple and avoids ambiguity (if not for humans, for the DI container).
You can use property injection when you have what Mark Seemann calls a local default in his book "Dependency Injection in .NET": the dependency is optional because you can provide a fine working implementation but want to allow the caller to specify a different one if needed.
(Former answer below)
I think that constructor injection are better if the injection is mandatory. If this adds too many constructors, consider using factories instead of constructors.
The setter injection is nice if the injection is optional, or if you want to change it halfway trough. I generally don't like setters, but it's a matter of taste.
It's largely a matter of personal taste.
Personally I tend to prefer the setter injection, because I believe it gives you more flexibility in the way that you can substitute implementations at runtime.
Furthermore, constructors with a lot of arguments are not clean in my opinion, and the arguments provided in a constructor should be limited to non-optional arguments.
As long as the classes interface (API) is clear in what it needs to perform its task,
you're good.
I prefer constructor injection because it helps "enforce" a class's dependency requirements. If it's in the c'tor, a consumer has to set the objects to get the app to compile. If you use setter injection they may not know they have a problem until run time - and depending on the object, it might be late in run time.
I still use setter injection from time to time when the injected object maybe needs a bunch of work itself, like initialization.
I personally prefer the Extract and Override "pattern" over injecting dependencies in the constructor, largely for the reason outlined in your question. You can set the properties as virtual and then override the implementation in a derived testable class.
I perfer constructor injection, because this seems most logical. Its like saying my class requires these dependencies to do its job. If its an optional dependency then properties seem reasonable.
I also use property injection for setting things that the container does not have a references to such as an ASP.NET View on a presenter created using the container.
I dont think it breaks encapsulation. The inner workings should remain internal and the dependencies deal with a different concern.
One option that might be worth considering is composing complex multiple-dependencies out of simple single dependencies. That is, define extra classes for compound dependencies. This makes things a little easier WRT constructor injection - fewer parameters per call - while still maintaining the must-supply-all-dependencies-to-instantiate thing.
Of course it makes most sense if there's some kind of logical grouping of dependencies, so the compound is more than an arbitrary aggregate, and it makes most sense if there are multiple dependents for a single compound dependency - but the parameter block "pattern" has been around for a long time, and most of those that I've seen have been pretty arbitrary.
Personally, though, I'm more a fan of using methods/property-setters to specify dependencies, options etc. The call names help describe what is going on. It's a good idea to provide example this-is-how-to-set-it-up snippets, though, and make sure the dependent class does enough error checks. You might want to use a finite state model for the setup.
I recently ran into a situation where I had multiple dependencies in a class, but only one of the dependencies was necessarily going to change in each implementation. Since the data access and error logging dependencies would likely only be changed for testing purposes, I added optional parameters for those dependencies and provided default implementations of those dependencies in my constructor code. In this way, the class maintains its default behavior unless overridden by the consumer of the class.
Using optional parameters can only be accomplished in frameworks that support them, such as .NET 4 (for both C# and VB.NET, though VB.NET has always had them). Of course, you can accomplish similar functionality by simply using a property that can be reassigned by the consumer of your class, but you don't get the advantage of immutability provided by having a private interface object assigned to a parameter of the constructor.
All of this being said, if you are introducing a new dependency that must be provided by every consumer, you're going to have to refactor your constructor and all code that consumers your class. My suggestions above really only apply if you have the luxury of being able to provide a default implementation for all of your current code but still provide the ability to override the default implementation if necessary.
Constructor injection does explicitly reveal the dependencies, making code more readable and less prone to unhandled run-time errors if arguments are checked in the constructor, but it really does come down to personal opinion, and the more you use DI the more you'll tend to sway back and forth one way or the other depending on the project. I personally have issues with code smells like constructors with a long list of arguments, and I feel that the consumer of an object should know the dependencies in order to use the object anyway, so this makes a case for using property injection. I don't like the implicit nature of property injection, but I find it more elegant, resulting in cleaner-looking code. But on the other hand, constructor injection does offer a higher degree of encapsulation, and in my experience I try to avoid default constructors, as they can have an ill effect on the integrity of the encapsulated data if one is not careful.
Choose injection by constructor or by property wisely based on your specific scenario. And don't feel that you have to use DI just because it seems necessary and it will prevent bad design and code smells. Sometimes it's not worth the effort to use a pattern if the effort and complexity outweighs the benefit. Keep it simple.
This is an old post, but if it is needed in future maybe this is of any use:
https://github.com/omegamit6zeichen/prinject
I had a similar idea and came up with this framework. It is probably far from complete, but it is an idea of a framework focusing on property injection
It depends on how you want to implement.
I prefer constructor injection wherever I feel the values that go in to the implementation doesnt change often. Eg: If the compnay stragtegy is go with oracle server, I will configure my datsource values for a bean achiveing connections via constructor injection.
Else, if my app is a product and chances it can connect to any db of the customer , I would implement such db configuration and multi brand implementation through setter injection. I have just taken an example but there are better ways of implementing the scenarios I mentioned above.
When to use Constructor injection?
When we want to make sure that the Object is created with all of its dependencies and to ensure that required dependencies are not null.
When to use Setter injection?
When we are working with optional dependencies that can be assigned reasonable default values within the class. Otherwise, not-null checks must be performed everywhere the code uses the dependency.
Additionally, setter methods make objects of that class open to reconfiguration or re-injection at a later time.
Sources:
Spring documentation ,
Java Revisited
In order to write testable C# code, I use DI heavily.
However lately I've been messing around with IronPython and found that as you can mock any methods/classes/functions etc... you like, the need for DI is gone.
Is this the case for dynamic langagues such as Python?
Instead of:
class Person(Address) {
...
You can have:
class Person() {
...
// Address initialised in here.
For dynamic languages and therefore following manaual DI for dynamic langagues is simply not needed.
Any advice on this?
Dependency Injection is also about how you wire things together --- which has nothing to do about the mockability of depended-on objects. There's a difference between having a Foo-instance that needs a Bar-connection of some kind instantiate it directly and having it completely ignore how it gets that connection as long as it has it.
If you use dependency injection you also gain better testability. But the converse isn't true. Easier testability by being able to overwrite anything doesn't bring the other advantages of dependency injection. There are many component/DI-frameworks for Python available exactly for these reasons.
I strongly disagree with your statement that Dependency Injection is not needed in dynamically typed languages. The reasons for why DI is useful and necessary are completely independent of the typing discipline of the language.
The main difference is that DI in dynamically typed languages is easy and painless: you don't need a heavyweight framework and a gazillion lines of XML configuration.
In Ruby, for example, there are only two DI frameworks. Both were written by a Java programmer. Neither of the two frameworks is used by a single project. Not even by the author of those frameworks.
However, DI is used all over the place in Ruby.
Jamis Buck, who is the author of both of those frameworks gave a talk called Recovering from Enterprise at RubyConf 2008 about how and why he wrote those frameworks and why that was a bad idea, which is well worth watching. There’s also an accompanying blog post if you’d like to read. (Just substitute “Python” everytime he says “Ruby” and everything will be just as valid.)
I'll try again. My last answer missed the question by a mile and zoomed way off topic.
Using pseudo-code, dependency Injection says out with:
class Person
def Chat() {
someOperation("X","Y","Z")
end
end
...
Person.new().Chat()
and in with:
class Person
initialize(a,b,c)
#a=a
#b=b
#c=c
end
def Chat()
someOperation(#a,#b,#c)
end
end
...
Person.new("X","Y","Z").Chat()
,., and generally in with putting the object and the call into different files for SCM purposes.
Whether "X", "Y" or "Z" are mockable (...if they were instead objects...(!)...(!)...) have nothing at all to do with whether DI is good. Really. :-)
DI is just easier in Python or Ruby, like a lot of other tasks, because there's more of a scripting approach, like Jörg says; and also of course less of a culture and a tendency saying that constants and adapters are to get populated into models and global constants.
In practical terms for me DI is the first step towards separating out those application parameters, API constants and factories into separate files to help make your revision tracking report look less spaghetti-like ("Were those extra checkins on the AppController to change the configuration..? Or to update the code...?") and more informing, and more easy to read.
My recommendation: Keep using DI... :-)
I think you're presenting a question that seems to be about best practice but is actually about run-time performance.
Get rid of dependency injection? How can a software release manager sleep at night?
The tests for function to perform must surely slow the program down one or two tads.
// my generic function entry point - IronPython
if func="a":
...
if func="b":
...
if func="c":
...
You can use standard Python with classes... or you can assign function pointers to function pointer members. Just what kind of a beast is it...?? I know, I know. Python I think is difficult to define but I like it. And I like and think highly of dependency injection, not that I've had long where I'd think to assign such a lengthy name to the practice.
Say I have a class called PermissionManager which should only exist once for my system and basically fulfills the function of managing various permissions for various actions in my application. Now I have some class in my application which needs to be able to check a certain permission in one of its methods. This class's constructor is currently public, i.e. used by API users.
Until a couple of weeks ago, I would have simply had my class call the following pseudo-code somewhere:
PermissionManager.getInstance().isReadPermissionEnabled(this)
But since I have noticed everyone here hating singletons + this kind of coupling, I was wondering what the better solution would be, since the arguments I have read against singletons seem to make sense (not testable, high coupling, etc.).
So should I actually require API users to pass in a PermissionManager instance in the constructor of the class? Even though I only want a single PermissionManager instance to exist for my application?
Or am I going about this all wrong and should have a non-public constructor and a factory somewhere which passes in the instance of PermissionManager for me?
Additional info Note that when I say "Dependency Injection", I'm talking about the DI Pattern...I am not using any DI framework like Guice or Spring. (...yet)
If you are using a dependency-injection framework, then the common way to handle this is to either pass in a PermissionsManager object in the constructor or to have a property of type PermissionsManager that the framework sets for you.
If this is not feasible, then having users get an instance of this class via factory is a good choice. In this case, the factory passes the PermissionManager in to the constructor when it creates the class. In your application start-up, you would create the single PermissionManager first, then create your factory, passing in the PermissionManager.
You are correct that it is normally unwieldy for the clients of a class to know where to find the correct PermissionManager instance and pass it in (or even to care about the fact that your class uses a PermissionManager).
One compromise solution I've seen is to give your class a property of type PermissionManager. If the property has been set (say, in a unit test), you use that instance, otherwise you use the singleton. Something like:
PermissionManager mManager = null;
public PermissionManager Permissions
{
if (mManager == null)
{
return mManager;
}
return PermissionManager.getInstance();
}
Of course, strictly speaking, your PermissionManager should implement some kind of IPermissionManager interface, and that's what your other class should reference so a dummy implementation can be substituted more easily during testing.
You can indeed start by injecting the PermissionManager. This will make your class more testable.
If this causes problems for the users of that class you can have them use a factory method or an abstract factory. Or you can add a parameterless constructor that for them to call that injects the PermissionManager while your tests use another constructor that you can use to mock the PermissionManager.
Decoupling your classes more makes your classes more flexible but it can also make them harder to use. It depends on the situation what you'll need. If you only have one PermissionManager and have no problem testing the classes that use it then there's no reason to use DI. If you want people to be able to add their own PermissionManager implementation then DI is the way to go.
If you are subscribing to the dependency injection way of doing things, whatever classes need your PermissionManager should have it injected as an object instance. The mechanism that controls its instantiation (to enforce the singleton nature) works at a higher level. If you use a dependency injection framework like Guice, it can do the enforcement work. If you are doing your object wiring by hand, dependency injection favors grouping code that does instantiation (new operator work) away from your business logic.
Either way, though, the classic "capital-S" Singleton is generally seen as an anti-pattern in the context of dependency injection.
These posts have been insightful for me in the past:
Using Dependency Injection to Avoid Singletons
How to Think About the "new" Operator with Respect to Unit Testing
So should I actually require API users to pass in a PermissionManager instance in the constructor of the class? Even though I only want a single PermissionManager instance to exist for my application?
Yes, this is all you need to do. Whether a dependency is a singleton / per request / per thread or a factory method is the responsibility of your container and configuration. In the .net world we would ideally have the dependency on an IPermissionsManager interface to further reduce coupling, I assume this is best practice in Java too.
The singleton pattern is not bad by itself, what makes it ugly is the way it's commonly used, as being the requirement of only wanting a single instance of a certain class, which I think it's a big mistake.
In this case I'd make PermissionManager a static class unless for any reason you need it to be an instanciable type.