Compare commits

..

No commits in common. "4136eb65af6898f6f8a283213df451a463ac429f" and "6088b976d8dd783140d889b7210217bf54662dd0" have entirely different histories.

5 changed files with 147 additions and 267 deletions

View file

View file

View file

@ -1,93 +0,0 @@
## Skooma.js
### HTML Proxy
The proxy object that does the actual HTML generation.
```js
document.body.append(html.div(
html.span("Hello, World!")
))
```
### Handle helper
Wraps a funcion of the signature `event, ... -> value` so that
`event.preventDefault` gets called before running the function.
```js
button.addEventListener("click",
handle(() => console.log("click"))
)
```
### Fragment helper
Wraps a list of elements in a new document fragment.
```js
const spans = fragment(
html.span("First span"),
html.span("Second span")
)
document.body.append(spans.cloneNode())
```
### Text helper
When called as a normal function, returns a new text node with the given
content. Unlike `document.createTextNode`, it does not fail for non-string
values.
```js
const node = text("Hello, World!")
```
When used as a tagged template, returns a document fragment containing text
nodes and interpolated values. DOM nodes can be interpolated into the document
fragment.
```js
const description = text`Interpolate ${html.b("bold")} text`
```
For consistency, even tagged templates with no interpolated variables will
always return a document fragment.
## State.js
### AbortRegistry
`FinalizationRegistry` that takes an `AbortController` and aborts it whenever
the registered value gets collected.
### ChangeEvent
The event class emitted when a change is detected on a skooma state.
Provides the `final` getter.
### MapStorage
A utility class that simulates the `Storage` API but is backed by a map. Can be
used as fallback in environments where persistent storages aren't available.
### SimpleState
Base state class that all other states inherit from, used primarily for class
checking, as the `State` class introduces behaviours that may be undesireable
when inheriting.
### State
The main state class that does all the magic.
### ForwardState
Proxy to a named property on another State to be used with APIs that only accept
single-value states.
### StoredState
State class that is backed by a Storage instead of an internal proxy.
## domLense.js

View file

@ -1,174 +0,0 @@
# Rendering DOM nodes using `render.js`
```js
import {html} from "skooma/render.js"
```
A functional-friendly helper library for procedural DOM generation and templating, with support for reactive state objects.
## Summary
```js
html.button(
"Clicki Me!",
{
class: "primary",
click({target}) {
console.log("User clicked", target)
}
},
button => { console.log("Created", button) }
)
```
* elements as functions `content -> element`
* content as arguments or in arrays
* attributes in object arguments
* style, dataset, shadow root, etc. as magic attributes
* events as function attributes
* initialisers as `void -> void` functions
## Interface / Examples
### Basic DOM generation
Accessing the `html` proxy with any string key returns a new node generator function.
When called this function will generate a DOM node (HTML Tag).
The name of the function becomes the tag name of the node.
```js
html.div()
```
Content and attributes can be set via the function arguments:
Strings and DOM nodes are inserted as children, while other objects (except for some special cases) have their key-value pairs turned into attribute-value pairs on the
```js
html.div("Big Text", {style: "font-size: 1.4em"})
```
Arrays are iterated and their values treated as arguments.
This works both for inserting children and setting attributes.
```js
const content = [" ps: hi", {class: "title"}]
html.h1({id: "main-heading"}, "Heading", content)
```
Function arguments are treated differently depending on their length:]
Functions with **no** named parameters are called, and their return value is then evaluated just like an argument to the generator.
All other functions are (immediately) called with the newly created node as their first and only argument.
These can be used to initialise the new node in a point-free style.
```js
const hello = () => html.bold("Hello, World!")
const init = node => console.log("Initialising", node)
html.div(hello, init)
```
Nested tags can be generated with nested function calls.
When properly formatted, this means simpler templates will have the same structure as if written in HTML (sans those pesky closing tags).
```js
html.div(
html.p(
html.b("Bold Text")
)
)
```
### Attribute Processing
For convenience, arrays assigned as attributes will be joined with spaces:
```js
html.a({class: ["button", "important"]})
```
Assigning a function as an attribute will instead attach it as an event listener:
```js
html.button("Click me!", {click: event => {
alert("You clicked the button.")
}})
```
The special `style` property can be set to an object and its key/value pairs will be inserted as CSS properties on the element's `style` object.
```js
const style = { color: "salmon" }
html.span("Salmon", { style })
```
The special property `shadowRoot` will attach a shadow-DOM to the element if none is present and append its content to the shadow root.
Arrays are iterated over and their elements appended individually.
```js
html.div({
shadowRoot = ["Hello, ", html.b("World"), "!"]
})
```
The `dataset` property will add its key/value pairs to the new node's `dataset`,
as a more convenient alternative to setting individual `data-` attributes.
```js
const dataset = { foo: "bar" }
const div = html.div({dataset})
console.log(dataset.foo === div.dataset.foo)
console.log(div.getAttribute("data-foo") === "bar")
```
### Reactivity
Skooma supports reactivity through a simple protocol:
Observable objects identify themselves with the `observable` attribute,
which must return a truthy value.
Observables are expected to expose a `value` attribute that is both readable and writeable,
and to emit a "change" event whenever its vale has changed.
Observables can be passed to skooma's node functions as both
attribute values (values in an object) or
child elements (direct arguments or in an array).
#### Reactive Children
Passing an observable as a child element will attempt to insert its current
value into the new node as if it was passed in directly, but will also hook into
the observable to replace the value when the state changes.
```js
const state = new Observable.value(0)
const button = html.button(state, {
click(event) { state.value++ }
})
```
Note that to keep the replacement logic simple, it is not currently possible to
insert use document fragments, as these could insert several top-level children
into a component that would then all have to be replaced. When an observable
contains or changes to a document fragment, skooma will raise an error.
Before replacing an element, a `"replace"` event is emitted from the old
element. This event bubbles and is cancelable, and can thus be used both to
completely prevent the replacement according to custom logic, to alter or
initialise the new element before it is inserted, or even to modify the old
object instead of replacing it.
#### Reactive Attributes
Passing an observable as an object value will, likewise, treat its value as the
attribute value, and update it whenever the state's value changes.
```js
const state = new Observable.value(0)
const input_1 = html.input({ type: "number", value: state })
const input_2 = html.input({ type: "number", value: state })
```
TODO: events as for reactive children

147
readme.md
View file

@ -1 +1,148 @@
# Skooma
A functional-friendly helper library for procedural DOM generation and
templating.
```js
import {html} from "skooma.js"
```
## Overview
```js
const text = new State({value: "Skooma is cool"})
setTimeout(() => {text.value = "Skooma is awesome!"}, 1e5)
document.body.append(html.div(
html.h1("Hello, World!"),
html.p(text, {class: "amazing"}),
html.button("Show Proof", {click: event => { alert("It's true!") }})
))
```
## Interface / Examples
### Basic DOM generation
Accessing the `html` proxy with any string key returns a new node generator
function:
```js
html.div("Hello, World!")
```
Attributes can be set by passing objects to the generator:
```js
html.div("Big Text", {style: "font-size: 1.4em"})
```
Complex structures can easily achieved by nesting generator functions:
```js
html.div(
html.p(
html.b("Bold Text")
)
)
```
For convenience, arrays assigned as attributes will be joined with spaces:
```js
html.a({class: ["button", "important"]})
```
Assigning a function as an attribute will instead attach it as an event
listener:
```js
html.button("Click me!", {click: event => {
alert("You clicked the button.")
}})
```
<!-- TODO: Document special keys -->
Generators can be called with many arguments. Arrays get iterated recursively as
if they were part of a flat argument list.
### Generating Text Nodes
```js
text("Hello, World")
// Wraps document.createTextNode
text()
// Defaults to empty string instead of erroring
text(null)
// Non-string arguments still error
text`Hello, World!`
// returns a new document fragment containing the text node "Hello, World!"
text`Hello, ${user}!`
// returns a document fragment containing 3 nodes:
// "Hello, ", the interpolated value of `user` and "!"
text`Hello, ${html.b(user)}!`
// Text node for Hello, the <b> tag with the user's name, and a text node for !
```
## handle
```js
import {handle} from 'skooma.js'
```
Since it is common for event handlers to call `preventDefault()`, skooma
provides a helper function called `handle` with the following definition:
```js
fn => event => { event.preventDefault(); return fn(event) }
```
## A few more examples:
Create a Button that deletes itself:
```js
document.body.append(
html.button("Delete Me", {click: event => event.target.remove()})
)
```
Turn a two-dimensional array into an HTML table:
```js
const table = rows =>
html.table(html.tbody(rows.map(
row => html.tr(row.map(
cell => html.rd(cell, {dataset: {
content: cell.toLowerCase(),
}})
))
)))
```
A list that you can add items to
```js
let list, input = ""
document.body.append(html.div([
list=html.ul(),
html.input({type: 'text', input: e => input = e.target.value}),
html.button({click: event => list.append(html.li(input))}, "Add"),
]))
```
A list that you can also delete items from
```js
const listItem = content => html.li(
html.span(content), " ", html.a("[remove]", {
click: event => event.target.closest("li").remove(),
style: { cursor: 'pointer', color: 'red' },
})
)
let list, input = ""
document.body.append(html.div([
list=html.ul(),
html.input({type: 'text', input: e => input = e.target.value}),
html.button({click: event => list.append(listItem(input))}, "Add"),
]))
```