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---
stage: none
group: unassigned
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info: To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/product/ux/technical-writing/#assignments
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---
# Design Anti-patterns
Anti-patterns may seem like good approaches at first, but it has been shown that they bring more ills than benefits. These should
generally be avoided.
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Throughout the GitLab codebase, there may be historic uses of these anti-patterns. [Use discretion](https://about.gitlab.com/handbook/engineering/development/principles/#balance-refactoring-and-velocity)
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when figuring out whether or not to refactor, when touching code that uses one of these legacy patterns.
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NOTE:
For new features, anti-patterns are not necessarily prohibited, but it is **strongly suggested** to find another approach.
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## Shared Global Object (Anti-pattern)
A shared global object is an instance of something that can be accessed from anywhere and therefore has no clear owner.
Here's an example of this pattern applied to a Vuex Store:
```javascript
const createStore = () => new Vuex.Store({
actions,
state,
mutations
});
// Notice that we are forcing all references to this module to use the same single instance of the store.
// We are also creating the store at import-time and there is nothing which can automatically dispose of it.
//
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// As an alternative, we should export the `createStore` and let the client manage the
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// lifecycle and instance of the store.
export default createStore();
```
### What problems do Shared Global Objects cause?
Shared Global Objects are convenient because they can be accessed from anywhere. However,
the convenience does not always outweigh their heavy cost:
- **No ownership.** There is no clear owner to these objects and therefore they assume a non-deterministic
and permanent lifecycle. This can be especially problematic for tests.
- **No access control.** When Shared Global Objects manage some state, this can create some very buggy and difficult
coupling situations because there is no access control to this object.
- **Possible circular references.** Shared Global Objects can also create some circular referencing situations since submodules
of the Shared Global Object can reference modules that reference itself (see
[this MR for an example](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/33366)).
Here are some historic examples where this pattern was identified to be problematic:
- [Reference to global Vuex store in IDE](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/36401)
- [Docs update to discourage singleton Vuex store](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/36952)
### When could the Shared Global Object pattern be actually appropriate?
Shared Global Object's solve the problem of making something globally accessible. This pattern
could be appropriate:
- When a responsibility is truly global and should be referenced across the application
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(for example, an application-wide Event Bus).
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Even in these scenarios, consider avoiding the Shared Global Object pattern because the
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side-effects can be notoriously difficult to reason with.
### References
To read more on this topic, check out the following references:
- [GlobalVariablesAreBad from C2 wiki](https://wiki.c2.com/?GlobalVariablesAreBad)
## Singleton (Anti-pattern)
The classic [Singleton pattern](https://en.wikipedia.org/wiki/Singleton_pattern) is an approach to ensure that only one
instance of a thing exists.
Here's an example of this pattern:
```javascript
class MyThing {
constructor() {
// ...
}
// ...
}
MyThing.instance = null;
export const getThingInstance = () => {
if (MyThing.instance) {
return MyThing.instance;
}
const instance = new MyThing();
MyThing.instance = instance;
return instance;
};
```
### What problems do Singletons cause?
It is a big assumption that only one instance of a thing should exist. More often than not,
a Singleton is misused and causes very tight coupling amongst itself and the modules that reference it.
Here are some historic examples where this pattern was identified to be problematic:
- [Test issues caused by singleton class in IDE](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/30398#note_331174190)
- [Implicit Singleton created by module's shared variables](https://gitlab.com/gitlab-org/gitlab-vscode-extension/-/merge_requests/97#note_417515776)
- [Complexity caused by Singletons](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/29461#note_324585814)
Here are some ills that Singletons often produce:
1. **Non-deterministic tests.** Singletons encourage non-deterministic tests because the single instance is shared across
individual tests, often causing the state of one test to bleed into another.
1. **High coupling.** Under the hood, clients of a singleton class all share a single specific
instance of an object, which means this pattern inherits all the [problems of Shared Global Object](#what-problems-do-shared-global-objects-cause)
such as no clear ownership and no access control. These leads to high coupling situations that can
be buggy and difficult to untangle.
1. **Infectious.** Singletons are infectious, especially when they manage state. Consider the component
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[RepoEditor](https://gitlab.com/gitlab-org/gitlab/-/blob/27ad6cb7b76430fbcbaf850df68c338d6719ed2b/app%2Fassets%2Fjavascripts%2Fide%2Fcomponents%2Frepo_editor.vue#L0-1)
used in the Web IDE. This component interfaces with a Singleton [Editor](https://gitlab.com/gitlab-org/gitlab/-/blob/862ad57c44ec758ef3942ac2e7a2bd40a37a9c59/app%2Fassets%2Fjavascripts%2Fide%2Flib%2Feditor.js#L21)
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which manages some state for working with Monaco. Because of the Singleton nature of the Editor class,
the component `RepoEditor` is now forced to be a Singleton as well. Multiple instances of this component
would cause production issues because no one truly owns the instance of `Editor`.
### Why is the Singleton pattern popular in other languages like Java?
This is because of the limitations of languages like Java where everything has to be wrapped
in a class. In JavaScript we have things like object and function literals where we can solve
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many problems with a module that exports utility functions.
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### When could the Singleton pattern be actually appropriate?**
Singletons solve the problem of enforcing there to be only 1 instance of a thing. It's possible
that a Singleton could be appropriate in the following rare cases:
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- We need to manage some resource that **MUST** have just 1 instance (that is, some hardware restriction).
- There is a real [cross-cutting concern](https://en.wikipedia.org/wiki/Cross-cutting_concern) (for example, logging) and a Singleton provides the simplest API.
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Even in these scenarios, consider avoiding the Singleton pattern.
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### What alternatives are there to the Singleton pattern?
#### Utility Functions
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When no state needs to be managed, we can export utility functions from a module without
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messing with any class instantiation.
```javascript
// bad - Singleton
export class ThingUtils {
static create() {
if(this.instance) {
return this.instance;
}
this.instance = new ThingUtils();
return this.instance;
}
bar() { /* ... */ }
fuzzify(id) { /* ... */ }
}
// good - Utility functions
export const bar = () => { /* ... */ };
export const fuzzify = (id) => { /* ... */ };
```
#### Dependency Injection
[Dependency Injection](https://en.wikipedia.org/wiki/Dependency_injection) is an approach which breaks
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coupling by declaring a module's dependencies to be injected from outside the module (for example, through constructor parameters, a bona-fide Dependency Injection framework, and even Vue's `provide/inject`).
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```javascript
// bad - Vue component coupled to Singleton
export default {
created() {
this.mediator = MyFooMediator.getInstance();
},
};
// good - Vue component declares dependency
export default {
inject: ['mediator']
};
```
```javascript
// bad - We're not sure where the singleton is in it's lifecycle so we init it here.
export class Foo {
constructor() {
Bar.getInstance().init();
}
stuff() {
return Bar.getInstance().doStuff();
}
}
// good - Lets receive this dependency as a constructor argument.
// It's also not our responsibility to manage the lifecycle.
export class Foo {
constructor(bar) {
this.bar = bar;
}
stuff() {
return this.bar.doStuff();
}
}
```
In this example, the lifecycle and implementation details of `mediator` are all managed
**outside** the component (most likely the page entrypoint).