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🌱 Zeed Library

Plant the "zeed" for your next Typescript project and let it grow with this useful lib, providing basic functionalities handy in most projects.

Get started like this:

npm i zeed

Links:

Universal Logging

Powerful logging for browser and terminal.

import { Logger } from 'zeed'

const log = Logger('demo')

log('Hello World')
log.info('Info')
log.warn('Warning')
log.error('Error')

Sample output on a terminal:

<img src=".assets/node-console@2x.png" width="566" style="max-width:100%">

Sample output in Safari:

<img src=".assets/safari-console.png" style="max-width:100%">

By default, the most appropriate log handlers are activated. By default, a colorful output is applied for better orientation. Each line has trace info to allow direct jumps back into the code where the log has been issued. Logs can easily be filtered by level.

Filtering

By default logs are muted! Show the logs by applying filters. On the browser enter this an the web inspector console:

localStorage.zeed = '*'

On node set an environment variable like this

ZEED=* node myapp.js

Instead of the * more advanced filters can be applied compatible to the well known debug syntax. Instead of ZEED variable you may also use DEBUG. Please note that ZEED will supersede DEBUG.

Filtering by level is possible by setting ZEED_LEVEL, LEVEL or DEBUG_LEVEL to set the filter e.g. ZEED_LEVEL=info to hide debug logs.

To also write logs to a file you may set ZEED_LOG to the file path. All levels will be written to the file, no matter what other filtering has been chosen.

Log handlers

It is also possible to set (Logger.setHandlers([handlers])) or add (Logger.registerHandler(handler)) new log handlers. You can choose from:

opt are general options like level for the log level or filter for custom filtering (see below). But it can also hold individual settings specific for a log handler.

Examples for custom loggers are breadcrumb tracking in Sentry.io or showing notifications to users on errors in a UI.

Global logging context

You can use Logger in submodules and Zeed will make sure all logging goes through the same handlers, no matter what bundler is used. With Logger.setLock(true) any further changes to handlers, factories and log levels can be forbidden, to ensure no conflicting settings with submodules. You should set up the Logging very early in your main project before loading submodules.

Loggers can be extended. const newLog = log.extend("demo") will append :demo to the current namespace.

Traces to source code

Zeed tries to identify the origin in the source code of the log being issued. To get appropriate results in Node environments consider using the Source Map option:

node --enable-source-maps myapp.js

Alternative logging solutions: debug, tslog, consola, pino or winston to name just a few.

Promise / async / await utilities

Wait for an event via on or addEventListener, useful in unit tests.

await waitOn(emitter, 'action', 1000) // 1000 is optional timeout in ms

Wait for milliseconds.

await sleep(1000) // wait 1s

Throw an error after timeout of 1 second.

await timeout(asynFn, 1000)

If a value is not yet a Promise, wrap it to become one.

await promisify(returnValue)

Unique ID

Get a random unique ID of fixed length of 22 chars (these are 16 bytes = 128 bit, encoded in Base62). According to Nano ID Collision Calculator: "~597 billion years needed, in order to have a 1% probability of at least one collision."

const id1 = uuid() // base62 encoded => 22 chars
const id2 = uuidB32() // base32 encoded => 26 chars

Get an incremental unique ID for current process with named groups, great for debugging.

uname('something') // => 'something-0'
uname('other') // => 'other-0'
uname('something') // => 'something-1'

Sortable unique ID inspired by go-uuid. 6 bytes encode time and 10 bytes are random. String is Base62 encoded. Date can be extracted from the ID.

const shortSortableId = suid() // = '000iMi10bt6YK8buKlYPsd'
suidDate(shortSortableId) // = 2021-07-03T22:42:40.727Z
shortSortableId < suid() // = true

Overview of available IDs:

Typed event emitter

Typed and async emitter:

interface MyEvents {
  inc: (count: number) => number
}

const counter = 0

const e = new Emitter() < MyEvents > e.on('inc', async count => counter + 1)
await e.emit('inc', 1) // counter === 1

It is also possible to alternatively use a Proxy called .call that makes nice dynamic function calls of the events:

await e.call.inc(1)

We can also alternatively declare the listeners this way:

e.onCall({
  async inc(count: number): number {
    return counter + 1
  },
})

You can also use a global emitter that will be available even over module boundaries:

declare global {
  interface ZeedGlobalEmitter {
    test: (x: string) => void
  }
}

getGlobalEmitter().emit('test', 'Hello World') // or
getGlobalEmitter().call.test('Hello World')

Messaging

Communicating to servers or other remote parts through messages as if they were methods on a local object in a type safe way:

const m = useMessageHub({ cannel }).send<MyMessages>()
m.echo({ hello: 'world' })

But there is much more basic infrastructure for communication available in zeed. More details at src/common/msg/README.md

CRDT compatible sorting

A conflict free sorting algorithm with minimal data changes. Just extend an object from SortableItem, which will provide an additional property of type number called sort_weight.

interface Row extends SortedItem {
  id: string
  title: string
}

const rows: Row[] = []

function getSortedRows() {
  return sortedItems(rows)
}

Use startSortWeight, endSortWeight and moveSortWeight to get initial values for new entries or manipulate existing ones.

Essays:

The implementation in Zeed is pretty straight forward, but there are also more sophisticated approaches available as alternatives:

Custom binary data encoding / decoding

Integration of the base-x code to support encoding and decoding to any alphabet, but especially base2, base16 (hex), base32, base62, base64. Human-readable yet efficient encoding of binary data.

const sample = new UInt8Array([1, 2, 3])
const { encode, decode } = useBase(62)
decode(encode(sample)) === sample // = true

Deeply nested object utilities

Handle complex objects.

deepEqual({ a: { b: 1 } }, { a: { b: 2 } }) // false
deepMerge({ a: { b: 1 } }, { c: 3, a: { d: 4 } }) // {a:{b:1, d:4}, c:4}

Disposer

useDispose will simplify cleaning up objects. You just need to add a function or and object with dispose method to be called for cleanup. This can also be nested. A simple example is a timer:

function disposableTimer() {
  const timeout = setTimeout(() => console.log('hello world'), 1000)
  return () => clearTimeout(timeout)
}

const dispose = useDispose()

const obj = disposableTimer()
dispose.add(obj)

// or

const untrackTimer = dispose.add(disposableTimer())
untrackTimer() // dispose single object by return value of .track

// then later dispose all

dispose()

You can also untrack single entries. Entries are untracked LIFO. Disposers can also return a Promise and therefore await async disposals.

The disposer itself is also a call to dispose i.e. for convenience you can add it to objects and provide dispose easily like this:

class DisposeExample {
  // the trick is to assign to member `dispose`, will be both
  // the destructor and the registration point for disposables
  dispose = useDispose()

  constructor() {
    this.dispose.add(disposableTimer())
  }
}

const obj = new DisposeExample()
// ...
obj.dispose() // or async via `await obj.dispose()`

Much more...

...browse the source!

Related and Links

Related projects:

Recommended other collections of common JS utils:

Code integrated from other sources: