@smarthtmlelements/smart-custom-element
v6.2.0
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Smart Custom Element
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Smart Custom Element
JavaScript library that wraps the W3C standard Web Components family of APIs to provide a compact, feature-rich interface for Custom Elements
development.
Smart Custom Element provides a set of useful API, Data Binding, Templates, Device Agnostic Event Handling, Resize handling, Style Change Notifications, Property and Attribute Change Notifications, Property Value and Type validation, Localization, Lifecycle callback functions and much more. Our framework allows you to easily build Custom HTML Elements. Custom Elements are the web platform's native solution for component-based development. With Custom Elements, you get reusable HTML tags that can be used just like the browser’s built-in native html elements, or break your app up into small pieces, making your code cleaner and easier to maintain.
Installation
npm install smart-custom-element --save
In your web page, include
<script src="source/smart.element.js"></script>
Optional polyfill for browsers without custom elements support: webcomponents-lite.js
Version and Deployment
- This package is version according to semantic versioning.
Browser Support and Compatibility
Requires ES2015 classes. Edge, Chrome, Safari and Firefox. Requires Webcomponents polyfill for Edge and Safari
If targeting browsers that natively support ES2015, but not native Web Components:
You will also need the Shady DOM + Custom Elements polyfill.
See caniuse.com for support on Custom Elements v1 and Shadow DOM v1..
How to Use?
Include HTML tag (e.g. <my-button id='button'></my-button>)
in any time of document lifecycle. You can use your elements in e.g. SPA application just by including HTML tag. Custom Elements will auto initialize when added into document. You can include them in e.g. Vue, Angular or React projects and browser will take care of detecting it and initialization. You use it just like a native HTML Element, by changing attributes with button.setAttribute(attributeName, attributeValue);
, setting properties with button.disabled = true;
or listening to events with button.addEventListener('click', function(event) { });
.
You also take advantage of features like lazy-loading, that allows for loading components on demand, only when user add them to document
Introduction
A basic element definition looks like this:
<!DOCTYPE html>
<html lang="en">
<head>
<script type="text/javascript" src="https://cdnjs.cloudflare.com/ajax/libs/webcomponentsjs/1.0.22/webcomponents-lite.js"></script>
<script type="text/javascript" src="source/smart.element.js"></script>
<script>
Smart('smart-test', class TestElement extends Smart.BaseElement {
// properties.
static get properties() {
return {
'content': {
type: 'string'
}
};
}
/** Element's template. */
template() {
return '<div inner-h-t-m-l=\'[[content]]\'></div>';
}
ready() {
super.ready();
}
propertyChangedHandler(propertyName, oldValue, newValue) {
super.propertyChangedHandler(propertyName, oldValue, newValue);
}
});
</script>
<style>
.smart-container {
box-sizing: border-box;
font-family: inherit;
font-size: inherit;
display: block;
width: 100%;
height: 100%;
outline: none;
margin: 0;
padding: 0;
}
.smart-container * {
box-sizing: border-box;
}
smart-test {
background: #ddd;
color: #333;
display: inline-block;
border-radius: 5px;
border: 1px solid #aaa;
width: 100px;
text-align: center;
}
</style>
</head>
<body>
<smart-test content="Test Element"></smart-test>
</body>
</html>
An extended element definition looks like this:
Smart('smart-button', class Button extends Smart.ContentElement {
// Button's properties.
static get properties() {
return {
'value': {
type: 'string'
},
'name': {
type: 'string'
},
'type': {
type: 'string'
},
'clickMode': {
allowedValues: ['hover', 'press', 'release'],
type: 'string',
value: 'release'
}
};
}
/** Button's template. */
template() {
return '<button class=\'smart-button\' inner-h-t-m-l=\'[[innerHTML]]\' id=\'button\' type=\'[[type]]\' name=\'[[name]]\' value=\'[[value]]\' disabled=\'[[disabled]]\' role=\'button\'></button>';
}
static get listeners() {
return {
'button.mousedown': '_mouseDownHandler',
'button.mouseenter': '_mouseEnterHandler',
'button.click': '_clickHandler'
};
}
_clickHandler(event) {
const that = this;
if (that.clickMode !== 'release') {
event.preventDefault();
event.stopPropagation();
}
}
_mouseDownHandler() {
const that = this;
if (that.clickMode === 'press') {
that.$.fireEvent('click');
}
}
_mouseEnterHandler() {
const that = this;
if (that.clickMode === 'hover') {
that.$.fireEvent('click');
}
}
});
The base custom element class is called BaseElement
and is accessible through Smart.BaseElement
. Most elements derive from Smart.BaseElement
. Smart.ContentElement
extends the Smart.BaseElement
by adding content
and innerHTML
properties to it. It is useful when you need to append a child element by setting a single property.
Register a Custom Element
To register a custom element, use the Smart
function and pass in the element's tag name and class. By specification, the custom element's name must contain a dash (-). The library internally checks whether Custom Elements v1 is supported and uses its lifecycle callbacks and customElements.define. Otherwise, it uses document.registerElement and the v0 lifecycle callbacks. To use custom elements, you will need a browser which natively supports Custom Elements or you will need to load polyfills such as webcomponentsjs
.
Resources:
- https://developer.mozilla.org/en-US/docs/Web/Web_Components
- https://developers.google.com/web/fundamentals/getting-started/primers/customelements
- http://webcomponents.org/
- webcomponentsjs polyfill:
- https://github.com/webcomponents/webcomponentsjs
- https://www.npmjs.com/package/@webcomponents/webcomponentsjs
- The files webcomponents-lite.js and webcomponents-loader.js have to be referenced (in this order).
Lifecycle callbacks
- created - Called when the element has been created, but before property values are set and local DOM is initialized. Use for one-time set-up before property values are set.
- attached - Called after the element is attached to the document. Can be called multiple times during the lifetime of an element.
- ready - Called when the element is ready. Use for one-time configuration of your element.
- detached - Called after the element is detached from the document. Can be called multiple times during the lifetime of an element.
- completed - Called after the element and any custom elements in its template are ready, rendered and attached to the DOM. Completed is called once.
Properties
To add properties on your custom element, you can use the properties
object. All properties part of the properties
object are automatically serialized and deserialized by the element and can also be set through attributes by using the dash(-) syntax in the HTML markup. Each property can have the following members:
- reflectToAttribute - Type: Boolean. Set to
true
to cause the corresponding attribute to be set on the host node when the property value changes. If the property value isBoolean
, the attribute is created as a standard HTML boolean attribute (set if true, not set if false). For other property types, the attribute value is a string representation of the property value. The default value of this member istrue
. - defaultReflectToAttribute - Type: Boolean. Set to
true
when we want a default attribute value to be set on the host node. - readOnly - Type: Boolean. Determines whether the property is readyonly. if
true
the property can't be set by the user. - type - Type: String. Used for deserializing from an attribute.
- any - allows assigning any value to a property.
- string - allows assigning a
String
to a property. - string? - allows assigning a 'String' or null to a property.
- boolean or bool - allows assigning a
Boolean
to a property. - boolean? or bool? - allows assigning a 'Boolean' or null to a property.
- number or float - allows assigning a 'Number' to a property.
- number? or float? - allows assigning a 'Number' or null to a property.
- int or integer - allows assigning an 'Integer' to a property.
- int? or integer? - allows assigning an 'Integer' or null to a property.
- date - allows assigning a 'Date' to a property.
- date? - allows assigning a 'Date' or null to a property.
- array - allows assigning an 'Array' to a property.
- object - allows assigning an 'Object' to a property.
- allowedValues - Type: Array. Used for defining a set of values which are allowed to be set. For other values, an exception is thrown.
- notify - Type: Boolean. Determines whether an event is raised when a property is changed. The event name is: property's attribute name + - 'changed'. Example: Property's name is 'clickMode', the event's name will be 'click-mode-changed'. Example:
<!DOCTYPE html>
<html lang="en">
<head>
<meta http-equiv="X-UA-Compatible" content="IE=edge,chrome=1" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<link rel="stylesheet" href="styles/smart.default.css" type="text/css" />
<script type="text/javascript" src="smart.elements.js"></script>
<script>
window.onload = function () {
var list = document.getElementById('list');
var data = [
{
label: "Andrew",
value: 1,
group: "A"
},
{
label: "Natalia",
value: 5,
group: "B"
},
{
label: "Michael",
value: 4,
group: "B"
},
{
label: "Angel",
value: 2,
group: "A"
},
{
label: "Hristo",
value: 6,
group: "C"
},
{
label: "Peter",
value: 3,
group: "A"
},
{
label: "Albert",
value: 4,
group: "A"
},
{
label: "Boyko",
value: 8,
group: "A"
},
{
label: "Dimitar",
value: 9,
group: "B"
},
{
label: "George",
value: 10,
group: "C"
}
];
list.dataSource = data;
list.addEventListener('disabled-changed', function (event) {
if (event.target === list) {
alert('disabled changed');
}
});
document.getElementById("disabled").onclick = function () {
list.disabled = !list.disabled;
}
list.properties['disabled'].notify = true;
}
</script>
</head>
<body>
<smart-list-box style="float:left;" selection-mode="checkBox" id="list"></smart-list-box>
<div style="float: left; margin-left:100px;">
<smart-button style="width:auto;" id="disabled">Enable/Disable</smart-button>
</div>
</body>
</html>
- value - Default value for the property.
- observer - Type: String. A name of a function called within the Element when the property is changed. The arguments passed to your observer are the property's
oldValue
andnewValue
. - validator - Type: String. A name of a function called within the Element when the property is changing. The arguments passed to your validator are the property's
oldValue
andnewValue
. The functionreturns
the updated value. If itreturns undefined
, the newValue remains unchanged.
propertyChangedHandler(propertyName, oldValue, newValue)
method is called when a property is changed by the user. This method is useful for updating the element when the user makes some changes.
The user may watch for property changes by using the element's instance. watch(propertiesArray, propertyChangedCallback)
. The arguments passed to the propertyChangedCallback
function are propertyName, oldValue, newValue
.
Template
The template
object determines the internal HTML structure of the Element. Within that structure you can data bind properties by using two-way or one-way data binding.
template() {
return '<button class=\'smart-button\' inner-h-t-m-l=\'[[innerHTML]]\' id=\'button\' type=\'[[type]]\' name=\'[[name]]\' value=\'[[value]]\' disabled=\'[[disabled]]\' role=\'button\'></button>';
}
Text surrounded by double curly bracket ({{ }}) or double square bracket ([[ ]]) delimiters. Identifies the host element's property being bound.
- Double-curly brackets (}) is used for two-way data flow.
- Double square brackets ([[ ]]) is used for one-way downward from host element to target element data flow.
Two-way binding to a Native HTML element.
nativeElementProperty="{{hostElementProperty::nativeElementEvent}}"
Smart('my-element', class MyElement extends Smart.BaseElement {
static get properties() {
return {
'check': {
type: 'boolean'
}
};
}
template() {
return '<div><input type="checkbox" checked="{{check::change}}" /></div>';
}
});
<!DOCTYPE html>
<html lang="en">
<head>
<link rel="stylesheet" href="styles/smart.default.css" type="text/css" />
<script type="text/javascript" src="../../source/smart.element.js"></script>
<script type="text/javascript" src="../../source/myelement.js"></script>
<script>
window.onload = function () {
var myElement = document.querySelector('my-element');
myElement.onchange = function () {
console.log(myElement.check);
}
}
</script>
</head>
<body>
<my-element></my-element>
</body>
</html>
Content insertion point determines where the HTML elements which are within the custom element's body during initialization go during the initialization. By default that is the Custom Element itself, but you can specify a custom content insertion point, you can define a content
tag within the template's structure as in the below example:
template() {
return `<div>
<svg width="100%" height="100%" viewPort="0 0 100 100" viewBox="0 0 100 100">
<circle id="value" class ="smart-value" r="50" cx="50" cy="50" transform="rotate(270 50 50)"></circle>
</svg>
<div class="smart-label-container"><content></content><div id="label" class="smart-label"></div></div>
</div>`;
}
After the template is parsed, each element of the HTML Structure is accessible via its id
and the $
symbol. Note the checkboxInput
element in the below example:
/**
* CheckBox custom element.
*/
Smart('smart-checkbox', class CheckBox extends Smart.ToggleButton {
// CheckBox's properties.
static get properties() {
return {
'enableContainerClick': {
value: true,
type: 'boolean'
}
};
}
/** Checkbox's Html template. */
template() {
return `<div id='container' class='smart-container'>
<div id='checkboxAnimation' class ='smart-animation'></div>
<span id='checkboxInput' class ='smart-input'></span>
<span id='checkboxLabel' inner-h-t-m-l='[[innerHTML]]' class ='smart-label'><content></content></span>
</div>`;
}
static get listeners() {
return {
'click': '_clickHandler'
};
}
/** Called when the element is ready. Used for one-time configuration of the Checkbox. */
ready() {
}
/** Changes the check state wneh widget container is clicked. */
_clickHandler(event) {
const that = this;
if (that.disabled) {
return;
}
const isInputClicked = event.target === that.$.checkboxInput;
if ((that.enableContainerClick === true && !isInputClicked) || isInputClicked) {
that._changeCheckState('pointer');
that.focus();
}
}
});
A set of utility functions is accessible throught the $
symbol. The syntax is element.$
.The utilify functions are:
- addClass(className) - adds a class or classes to the element separated by space.
- removeClass(className) - removes a class or classes separated by space.
- isNativeElement - returns
true
if the element is native HTML Element. Otherwise returnsfalse
. - fireEvent(eventType, detail, options) - fires a Custom Event.
- eventType - String. Determines the event's type.
- detail - Object. Determines custom event object passed to the user.
- options - Object. Determines the event's options like
cancelable
orbubbles
. Read more on: https://developer.mozilla.org/en-US/docs/Web/API/CustomEvent
- listen(eventType, handler) - adds an event listener to the element. A set of Mobile-friendly events are supported by default. By passing any of these event types:
down, up, move, tap, taphold, swipeleft, swiperight, swipetop, swipebottom
, you will be notified when the user taps, swipes or touches with finger or mouse the element. If you listen to theresize
event, you will be notified whenever the element's boundaries are changed. - unlisten(eventType) - removes event listener by type.
- getAttributeValue(attributeName, type) - gets the attribute's typed value.
- setAttributeValue(attributeName, value, type) - sets the attribute's value by using a typed value.
By invoking Smart.Utilities.Extend(element)
you can extend any element with the above utility functions.
In order to add a custom utility class, you can use Smart.Utilities.Assign(classDefinition)
.
Smart.Utilities.Assign('defaultNumericProcessor', class defaultNumericProcessor {
}
To access that class, you can use Smart.Utilities.defaultNumericProcessor
.
*if and *items template directives.
If in the Template's definition, we have a HTMLTemplateElement, we can use these directives to insert HTML.
- *if - Conditionally includes a template defaultd on the value of a property.
- *items - Repeating a template by using each item of an iterable as that template's context.
- templateAttached - function called when the HTMLTemplateElement is attahed to the DOM.
- templateDetached - function called when the HTMLTemplateElement is detached from the DOM.
- refreshTemplate - you can use this function to re-evaluate and refresh the HTMLTemplateElement.
The below example creates a custom element called smart-test
. Within its template, the *if and *items directives are used. When the value of a property called condition
is set to true, we render all items contained in the source
property. When the value is set to false, we render again all items, but by using INPUT tags.
<!DOCTYPE html>
<html lang="en">
<head>
<script type="text/javascript" src="../../source/smart.element.js"></script>
<script>
Smart('smart-test', class Test extends Smart.BaseElement {
// Toggle Button's properties.
static get properties() {
return {
'name': {
value: 'test',
type: 'string'
},
'name2': {
value: 'Atest',
type: 'string'
},
'condition': {
value: true,
type: 'boolean'
},
'disabled': {
value: false,
type: 'boolean'
},
'source': {
value: [],
type: 'array'
}
};
}
template() {
return '<div><div>{{name2}}</div><template><div *if={{condition}}><span>{{name}}</span></div><ul *if={{condition}} *items={{source}}><li>{{item.name}}<input disabled={{disabled}} value="{{item.name}}"></input</li></ul></template></div>'
}
templateAttached(template) {
var inputs = template.querySelectorAll('input');
for (let i = 0; i < inputs.length; i++) {
inputs[i].addEventListener('change', function () {
alert('test');
});
}
}
templateDetached(template) {
}
test() {
return this.condition;
}
/**
* Toggle Button's event listeners.
*/
static get listeners() {
return {
};
}
/** Called when the element is ready. Used for one-time configuration of the ToggleButton. */
ready() {
super.ready();
}
});
window.onload = function () {
var test = document.querySelector('smart-test');
test.source = [
{ name: "Name 1" },
{ name: "Name 2" },
{ name: "Name 3" },
{ name: "Name 4" },
{ name: "Name 5" }
]
document.querySelector('button').onclick = function () {
test.name2 = "TEST";
test.source = [
{ name: "New Name 1" },
{ name: "New Name 2" },
{ name: "New Name 3" },
{ name: "New Name 4" },
{ name: "New Name 5" }
]
test.disabled = true;
test.condition = true;
}
}
</script>
</head>
<body>
<smart-test></smart-test>
<button>Update</button>
</body>
</html>
Events
The listeners
object allows you to add and map events to event handlers.
In the below example, the listeners
object defines that a method called _clickHandler
is called when the element is clicked. To listen to an event of an element from the template, you can use nodeId.eventName
like checkboxInput.click:_clickHandler
.
/**
* CheckBox custom element.
*/
Smart('smart-checkbox', class CheckBox extends Smart.ToggleButton {
// CheckBox's properties.
static get properties() {
return {
'enableContainerClick': {
value: true,
type: 'boolean'
}
};
}
/** Checkbox's Html template. */
template() {
return `<div id='container' class='smart-container'>
<div id='checkboxAnimation' class ='smart-animation'></div>
<span id='checkboxInput' class ='smart-input'></span>
<span id='checkboxLabel' inner-h-t-m-l='[[innerHTML]]' class ='smart-label'><content></content></span>
</div>`;
}
static get listeners() {
return {
'click': '_clickHandler'
};
}
/** Called when the element is ready. Used for one-time configuration of the Checkbox. */
ready() {
}
/** Changes the check state wneh widget container is clicked. */
_clickHandler(event) {
const that = this;
if (that.disabled) {
return;
}
const isInputClicked = event.target === that.$.checkboxInput;
if ((that.enableContainerClick === true && !isInputClicked) || isInputClicked) {
that._changeCheckState('pointer');
that.focus();
}
}
});
Binding to events within the Element's template.
Smart('my-element', class MyElement extends Smart.BaseElement {
static get properties() {
return {
'check': {
type: 'boolean'
}
};
}
template() {
return '<div><input id="checkbox" (change)="_changeHandler" type="checkbox" checked="{{check::change}}" /></div>';
}
_changeHandler() {
alert('Checkbox State Changed');
}
});
By using the utility functions described in the previous section, you can dynamically add and remove event listeners.
Data Context
The Data Context functionality of Smart Custom Element enables:
- Dependency tracking - automatically updates parts of UI whenever a data model changes.
- Declarative bindings - a way to connect parts of UI to a data model.
The DataContext can be applied in two ways - by calling a method called applyDataContext
or by setting a data-context
attribute in the element's definition pointing to a DataModel object.
The following example demonstrates how to use the DataContext
feature.
<!DOCTYPE html>
<html lang="en">
<head>
<meta http-equiv="X-UA-Compatible" content="IE=edge,chrome=1" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<link rel="stylesheet" href="styles/smart.default.css" type="text/css" />
<script type="text/javascript" src="smart.elements.js"></script>
<script>
window.onload = function () {
const data = [
{
label: "Andrew",
value: 1,
group: "A"
},
{
label: "Natalia",
value: 5,
group: "B"
},
{
label: "Michael",
value: 4,
group: "B"
},
{
label: "Angel",
value: 2,
group: "A"
},
{
label: "Hristo",
value: 6,
group: "C"
},
{
label: "Peter",
value: 3,
group: "A"
},
{
label: "Albert",
value: 2,
group: "A"
},
{
label: "Boyko",
value: 8,
group: "A"
},
{
label: "Dimitar",
value: 2,
group: "B"
},
{
label: "George",
value: 10,
group: "C"
}
];
window.listBoxSettings = {
dataSource: data,
selectionMode: 'checkBox'
}
const SimpleListModel = function (items) {
this.items = items;
this.itemToAdd = "";
this.addItem = function () {
if (this.itemToAdd !== "") {
this.items = this.items.concat(this.itemToAdd);
this.itemToAdd = ""; // Clears the text box, because it's bound to the "itemToAdd" observable
}
}.bind(this); // Ensure that "this" is always this view model
};
const listBox = document.querySelector('smart-list-box');
const textBox = document.querySelector('smart-text-box');
const button = document.querySelector('smart-button');
const model = new SimpleListModel(["Alpha", "Beta", "Gamma"]);
listBox.applyDataContext(model);
textBox.applyDataContext(model);
button.applyDataContext(model);
}
</script>
</head>
<body>
<smart-list-box style="float:left;" data-source="{{items}}" id="list">
</smart-list-box>
<smart-text-box value="{{itemToAdd}}">
</smart-text-box>
<div style="float: left; margin-left:100px;">
<smart-button (click)="addItem()" id="changeSource">Add</smart-button>
</div>
</body>
</html>
By using double-curly braces, we declare the property bindings. By using braces, we define the event bindings. The dataSource
property is bound to the SimpleListModel
's items
property. When the property is changed, the UI is automatically updated. The button's click
event is bound to the SimpleListModel
's addItem
function. When the button is clicked, the function is called. The value
of the TextBox updates the SimpleListModel
's itemToAdd
property and vice versa.
Modules
To add a missing feature or override a feature of a Custom Element, you can define a Module. The module represents a javascript class. By defining its properties
object, you can add new properties or override existing properties of the custom element. Methods defined within that class also extend or override custom element methods. The lifecycle callback functions usage is the same as in the element. To add a module to a custom element, you can use the addModule
function. The owner element is accessible through a property called ownerElement
.
window.Smart.Elements.whenRegistered('smart-button', function (proto) {
proto.addModule(ColorModule);
});
Custom Module which adds a new color
property to the smart-button
custom element.
<!DOCTYPE html>
<html lang="en">
<head>
<link rel="stylesheet" href="../../source/styles/smart.default.css" type="text/css" />
<link rel="stylesheet" href="../styles/demos.css" type="text/css" />
<script type="text/javascript" src="../../source/smart.elements.js"></script>
<script>
class ColorModule {
static get properties() {
const properties =
{
'color': {
value: 'red',
type: 'string',
observer: 'setColor'
}
}
return properties;
}
attached() {
}
detached() {
}
created() {
}
ready() {
this.ownerElement.$.button.style.color = this.color;
}
setColor(oldColor, color) {
this.ownerElement.$.button.style.color = this.color;
}
}
window.Smart.Elements.whenRegistered('smart-button', function (proto) {
proto.addModule(ColorModule);
});
</script>
<script>
function clickMe(event) {
let button = document.getElementById("button");
button.color = 'green';
}
</script>
</head>
<body>
<smart-button id="button" onclick="clickMe(event)">Click Me</smart-button>
</body>
</html>
It is a good practise to implement the 'moduleName' property when you create a custom module.
static get moduleName() {
return 'MyModule';
}
Inheritance
You can create a new Custom Element which extends an existing one. When you call the Smart
function, pass a class as a second argument which determines which element should be extended. All elements are registered within the Smart
global namespace and are accessible through their class name.
The below example demonstrates how to create a new element called smart-repeat-button
which extends the smart-button
element.
/**
* Repeat Button.
*/
Smart('smart-repeat-button', class RepeatButton extends Smart.Button {
// button's properties.
static get properties() {
return {
'delay': {
value: 50,
type: 'number'
},
'initialDelay': {
value: 150,
type: 'number'
}
};
}
static get listeners() {
return {
'button.mousedown': '_startRepeat',
'button.mouseenter': '_updateInBoundsFlag',
'button.mouseleave': '_updateInBoundsFlag',
'document.mouseup': '_stopRepeat'
};
}
_updateInBoundsFlag(event) {
const that = this;
that._isPointerInBounds = true;
if (event.type === 'mouseleave') {
that._isPointerInBounds = false;
}
}
_startRepeat(event) {
const that = this;
if (!that._initialTimer) {
that._initialTimer = setTimeout(function () {
that._repeatTimer = setInterval(() => {
if (that._isPointerInBounds) {
const buttons = ('buttons' in event) ? event.buttons : event.which;
that.$.fireEvent('click', { buttons: buttons });
}
}, that.delay);
that._initialTimer = null;
}, that.initialDelay);
}
}
_stopRepeat() {
const that = this;
if (that._repeatTimer) {
clearInterval(that._repeatTimer);
that._repeatTimer = null;
}
if (that._initialTimer) {
clearTimeout(that._initialTimer);
that._initialTimer = null;
}
}
});
Comparison with Polymer Framework
Polymer is a Google-sponsored project. With Polymer, you can build custom elements. Smart Custom Elements can be compared to Polymer’s custom elements and both provide a very similar development style.
Similar things:
Elements are instantiated using a constructor or document.createElement. Elements are instantiated when the tag is written in the DOM. Configured using attributes or properties Populated with internal DOM inside each instance Responsive to property and attribute changes Styled with internal defaults or externally Responsive to methods that manipulate its internal state
Different things:
Property types can be nullable and more strict - validation for Integer. Support for Int64.
Properties can define allowedValues
array. If a property is set to a value which is not in that array, an exception is thrown.
Property invalid value and invalid type validation.
Complex Nested Properties. Smart supports property nesting.
Example:
'paging': {
value: {
'enabled': {
value: false,
type: 'boolean'
},
'pageSize': {
value: 10,
type: 'int',
validator: 'pageSizeValidator'
},
'pageIndex': {
value: 0,
type: 'int',
validator: 'pageIndexValidator'
}
},
type: 'object'
}
For setting pageSize
, this could be used: grid.paging.pageSize = 15;
Initialization of an element from a JSON object with automatic Dependency Changes handling. When an element is created from a JSON object, the json it two-way bound to the element and any change in the element updates the JSON.
HTMLTemplates support. When in the Custom Element's template, we have HTMLTemplateElement, that template is re-evaluated on property change and can be used for dynamic user updates.
Method Arguments and Return Type. Smart validates Methods for Invalid return type, Arguments Count, Arguments Types.
Agnostic Events - Smart exposes custom events for 'down', 'up', 'move' and 'swipe'. These events are Device agnostic and are raised for
Touch and Desktop devices when the Cursor/Pointer is down, up, moved or swiped left, right, up or down.
Multiple Element Versions on the same web page is supported.
Localization - Built-in localization support.
Error Logs - Error logs with different error levels.
completed
lifecycle callback which is called when the local DOM is ready and all elements are rendered.
resize
notifications when the element's size is changed.
Style changed notifications - when the element's CSS is changed.
Using Shadow DOM is optional and is user preference. When disabled, the element's local DOM is part of the document's DOM.
View-Model Binding. An Element or Multiple Elements can be bound to the same Model object.
License
See LICENSE.md and Intellectual property and non-compete terms.
INTELLECTUAL PROPERTY
All intellectual property rights such as but not limited to patents, trademarks, copyrights or trade secret rights related to the Software are property of the Author. You shall not modify, translate, reverse engineer, un-minify, decompile or disassemble the Software or any portion of it or attempt to derive source code or create derivative works. You are not allowed to remove, alter or destroy any proprietary, trademark or copyright markings or notices related to the Software. You must not remove copyright headers, links and markings from any files included in the Software. You must obtain a permission by the Author if you need to incorporate the Software or any portions of it in open source projects.
NON-COMPETE
You are not allowed to use any portion of the Software in any products that fully or partially resemble the functionality of the Software or otherwise compete with the Software. You are not allowed to use the Software in any products or solutions offering reusable user interface components to end users, developers and third parties without express written permission by the Author.