cachebranch
Manage your cache in a hierarchical structure, similar to storing files in directories!
Supports both asynchronous and synchronous operations.
import { CacheBranchAsync } from 'cachebranch'
const branch = new CacheBranchAsync()
await branch.set('user', async () => {
const nickname = await branch.ensure('user/nickname', async () => 'Anonymous')
const html = await branch.ensure('user/nickname/html', async () => <div>Loading...</div>)
return {
nickname: nickname.raw,
html: html.raw,
}
})
await branch.set('user/nickname', async () => {
const res = await fetch('...')
const nickname = await res.text()
return nickname
})
await branch.set('user/nickname/html', async () => {
const nickname = await branch.ensure('user/nickname', async () => 'Anonymous')
return (
<div>{nickname.raw}</div>
)
})
await branch.cache('user')
const user = await branch.ensure('user').then(cache => cache.clone())
console.log(user)
Why should I use it?
In application development, there are situations where caching values becomes necessary for performance reasons. Often, cached values have dependencies on other cached values.
In such cases, the cachebranch library can assist you in managing these dependencies effectively.
How does it work?
To address cache dependency issues, cachebranch manages caches in a hierarchical structure. For example, if the user cache utilizes the age cache, you can create caches with keys 'user' and 'user/age'.
In this scenario, when you re-cache user, 'user/age' being a sub-branch will also be re-cached automatically. This hierarchical structure facilitates swift resolution of dependency problems.
Conceptualization
Hierarchical Structure
cachebranch operates similarly to organizing files in directories. Just as deleting a directory removes its subdirectories and files, deleting a cache in cachebranch also removes its sub-level caches.
For example, if you delete the 'user' cache, the sub-level cache 'user/age' will also be deleted. Keep this structure in mind when setting keys. There is no limit to the depth of hierarchy, so you can have structures as deep as 'user/1/2/3/4/5/6...' and beyond.
Cache Creation Function
In the cachebranch function that creates the cache, you should not directly assign values to the keys. Instead, you must pass a function that returns the value.
branch.set('user/age', () => 21)
Now when a situation arises where you need to re-cache due to dependency issues, the library will automatically help modify the value by recalling the corresponding function.
Cache Update Following Hierarchical Structure
You may want to update all cached content related to 'user'. Try using it like this:
branch.cache('user')
This code will update not only 'user', but also caches in the lower hierarchy such as 'user/age', 'user/nickname', etc. If you only want to update 'user', pass false as the second argument.
const recursive = false
branch.cache('user', recursive)
Preventing Pollution of Cached Values
These cached values are not just primitive types. They can also be objects or arrays. Cached values should not be modified to maintain reliability, but they can become polluted due to developer mistakes. See the example below.
const user = branch.get('user').raw
user.name = 'test'
This happens because the value is shallowly copied. To solve this issue, cachebranch supports a clone method. This method deeply copies the value and returns it. You can use it like this:
const user = branch.get('user').clone()
user.name = 'test'
Usage
Node.js (cjs)
npm i cachebranch
import { CacheBranchSync, CacheBranchAsync } from 'cachebranch'
Browser (esm)
<script type="module">
import {
CacheBranchSync,
CacheBranchAsync
} from 'https://cdn.jsdelivr.net/npm/cachebranch@1.x.x/dist/esm/index.min.js'
</script>
License
MIT license