I have seen some people in SO commenting that Singleton Pattern is an anti-pattern. I want to know why ?
One reason is that singletons aren't easy to handle with unit tests. You can't control the instantiation and by their very nature may retain state across invocations.
For that reason the principle of dependency injection is popular. Each class is injected (configured) with the classes they need to function (rather than derive via singleton accessors) and so tests can control which dependent class instances to use (and provide mocks if required).
Frameworks such as Spring will control the lifecycle of their objects and often create singletons, but these objects are injected into their dependent objects by the framework. Thus the codebase itself doesn't treat the objects as singletons.
e.g. rather than this (for example)
you would inject the calculator:
By limiting yourself to one instance of an object, the options for threading are limited. Access to the singleton object may have to be guarded (e.g. via synchronisation). If you can maintain multiple instances of those objects, then you can tailor then number of instances to the threads you have running, and increase the concurrent capabilities of your codebase.
My personal opinion is that it violates the single responsibility principle. Singleton objects are responsible for both their purpose and controlling the number of instances they produce which I think is wrong.
This is why a lot of people delegate the control to a factory object.
There are many requirements that you might have on the singleton:
Typically, also, you'll have a whole lot of singletons in your app, and the Singleton pattern doesn't allow reusable code. So, if you want to implement all these concerns for all your singletons, you'll immediately see its anti-pattern quality.
Singletons as such are not necessarily an anti-pattern, but they have only few benefits and become an antipattern when they are used wrong (which happens often).
Often, singletons are not singletons at all, but "global variables in disguise". Also, often they are used when the "only one instance" property is actually not an advantage. (which again is balanced by the fact that many times the implementation is wrong at the same time).
In addition to that, they can be tricky to implement with multithreading in mind (often done wrong or inefficiently), and they lose most of their benefits if you want to control their instantiation.
If you want to have control over instantiation, you need to do it by hand at some point early in the program, but then you could just as well just create one instance of a normal object and pass that onward.
[Mutable] Singleton is an anti-pattern of an anti-pattern.
The significant underlying anti-pattern is global state (or ambient state). With global state you have a big blog of dependency across your program. This does affect testing, but that's just a one part of the fallout from bad programming.
Layered upon that, Singleton adds completely unnecessary level of complexity over simply declaring mutable
Strange. It seems that the incorrect implementation of a Singleton is an "anti-pattern", not the Singleton itself.
I think we've forgotten that every program has to start somewhere. There has to be a concrete implementation of every abstraction, and eventually every dependency will eventually be resolved, or your app wouldn't be much use.
Most DI frameworks allow instantiating a class as a Singleton, it just handles that for you. If you choose to do DI yourself, injecting a singleton isn't a problem. A Singleton IS testable as well, and if you're using DI to inject it, doesn't make a class unstable.
IMO, like every other pattern out there (including DI and IoC) it's a tool. Sometimes it fits, sometimes it doesn't.