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mirror of https://github.com/invoiceninja/invoiceninja.git synced 2024-11-19 17:42:44 +01:00
invoiceninja/public/js/vendor/alpinejs/alpine.js

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(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? module.exports = factory() :
typeof define === 'function' && define.amd ? define(factory) :
(global = global || self, global.Alpine = factory());
}(this, (function () { 'use strict';
function _defineProperty(obj, key, value) {
if (key in obj) {
Object.defineProperty(obj, key, {
value: value,
enumerable: true,
configurable: true,
writable: true
});
} else {
obj[key] = value;
}
return obj;
}
function ownKeys(object, enumerableOnly) {
var keys = Object.keys(object);
if (Object.getOwnPropertySymbols) {
var symbols = Object.getOwnPropertySymbols(object);
if (enumerableOnly) symbols = symbols.filter(function (sym) {
return Object.getOwnPropertyDescriptor(object, sym).enumerable;
});
keys.push.apply(keys, symbols);
}
return keys;
}
function _objectSpread2(target) {
for (var i = 1; i < arguments.length; i++) {
var source = arguments[i] != null ? arguments[i] : {};
if (i % 2) {
ownKeys(Object(source), true).forEach(function (key) {
_defineProperty(target, key, source[key]);
});
} else if (Object.getOwnPropertyDescriptors) {
Object.defineProperties(target, Object.getOwnPropertyDescriptors(source));
} else {
ownKeys(Object(source)).forEach(function (key) {
Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key));
});
}
}
return target;
}
// Thanks @stimulus:
// https://github.com/stimulusjs/stimulus/blob/master/packages/%40stimulus/core/src/application.ts
function domReady() {
return new Promise(resolve => {
if (document.readyState == "loading") {
document.addEventListener("DOMContentLoaded", resolve);
} else {
resolve();
}
});
}
function arrayUnique(array) {
var a = array.concat();
for (var i = 0; i < a.length; ++i) {
for (var j = i + 1; j < a.length; ++j) {
if (a[i] === a[j]) a.splice(j--, 1);
}
}
return a;
}
function isTesting() {
return navigator.userAgent.includes("Node.js") || navigator.userAgent.includes("jsdom");
}
function kebabCase(subject) {
return subject.replace(/([a-z])([A-Z])/g, '$1-$2').replace(/[_\s]/, '-').toLowerCase();
}
function walk(el, callback) {
if (callback(el) === false) return;
let node = el.firstElementChild;
while (node) {
walk(node, callback);
node = node.nextElementSibling;
}
}
function debounce(func, wait) {
var timeout;
return function () {
var context = this,
args = arguments;
var later = function later() {
timeout = null;
func.apply(context, args);
};
clearTimeout(timeout);
timeout = setTimeout(later, wait);
};
}
function saferEval(expression, dataContext, additionalHelperVariables = {}) {
return new Function(['$data', ...Object.keys(additionalHelperVariables)], `var result; with($data) { result = ${expression} }; return result`)(dataContext, ...Object.values(additionalHelperVariables));
}
function saferEvalNoReturn(expression, dataContext, additionalHelperVariables = {}) {
// For the cases when users pass only a function reference to the caller: `x-on:click="foo"`
// Where "foo" is a function. Also, we'll pass the function the event instance when we call it.
if (Object.keys(dataContext).includes(expression)) {
let methodReference = new Function(['dataContext', ...Object.keys(additionalHelperVariables)], `with(dataContext) { return ${expression} }`)(dataContext, ...Object.values(additionalHelperVariables));
if (typeof methodReference === 'function') {
return methodReference.call(dataContext, additionalHelperVariables['$event']);
}
}
return new Function(['dataContext', ...Object.keys(additionalHelperVariables)], `with(dataContext) { ${expression} }`)(dataContext, ...Object.values(additionalHelperVariables));
}
const xAttrRE = /^x-(on|bind|data|text|html|model|if|for|show|cloak|transition|ref)\b/;
function isXAttr(attr) {
const name = replaceAtAndColonWithStandardSyntax(attr.name);
return xAttrRE.test(name);
}
function getXAttrs(el, type) {
return Array.from(el.attributes).filter(isXAttr).map(attr => {
const name = replaceAtAndColonWithStandardSyntax(attr.name);
const typeMatch = name.match(xAttrRE);
const valueMatch = name.match(/:([a-zA-Z\-:]+)/);
const modifiers = name.match(/\.[^.\]]+(?=[^\]]*$)/g) || [];
return {
type: typeMatch ? typeMatch[1] : null,
value: valueMatch ? valueMatch[1] : null,
modifiers: modifiers.map(i => i.replace('.', '')),
expression: attr.value
};
}).filter(i => {
// If no type is passed in for filtering, bypass filter
if (!type) return true;
return i.type === type;
});
}
function isBooleanAttr(attrName) {
// As per HTML spec table https://html.spec.whatwg.org/multipage/indices.html#attributes-3:boolean-attribute
// Array roughly ordered by estimated usage
const booleanAttributes = ['disabled', 'checked', 'required', 'readonly', 'hidden', 'open', 'selected', 'autofocus', 'itemscope', 'multiple', 'novalidate', 'allowfullscreen', 'allowpaymentrequest', 'formnovalidate', 'autoplay', 'controls', 'loop', 'muted', 'playsinline', 'default', 'ismap', 'reversed', 'async', 'defer', 'nomodule'];
return booleanAttributes.includes(attrName);
}
function replaceAtAndColonWithStandardSyntax(name) {
if (name.startsWith('@')) {
return name.replace('@', 'x-on:');
} else if (name.startsWith(':')) {
return name.replace(':', 'x-bind:');
}
return name;
}
function transitionIn(el, show, forceSkip = false) {
// We don't want to transition on the initial page load.
if (forceSkip) return show();
const attrs = getXAttrs(el, 'transition');
const showAttr = getXAttrs(el, 'show')[0]; // If this is triggered by a x-show.transition.
if (showAttr && showAttr.modifiers.includes('transition')) {
let modifiers = showAttr.modifiers; // If x-show.transition.out, we'll skip the "in" transition.
if (modifiers.includes('out') && !modifiers.includes('in')) return show();
const settingBothSidesOfTransition = modifiers.includes('in') && modifiers.includes('out'); // If x-show.transition.in...out... only use "in" related modifiers for this transition.
modifiers = settingBothSidesOfTransition ? modifiers.filter((i, index) => index < modifiers.indexOf('out')) : modifiers;
transitionHelperIn(el, modifiers, show); // Otherwise, we can assume x-transition:enter.
} else if (attrs.length > 0) {
transitionClassesIn(el, attrs, show);
} else {
// If neither, just show that damn thing.
show();
}
}
function transitionOut(el, hide, forceSkip = false) {
if (forceSkip) return hide();
const attrs = getXAttrs(el, 'transition');
const showAttr = getXAttrs(el, 'show')[0];
if (showAttr && showAttr.modifiers.includes('transition')) {
let modifiers = showAttr.modifiers;
if (modifiers.includes('in') && !modifiers.includes('out')) return hide();
const settingBothSidesOfTransition = modifiers.includes('in') && modifiers.includes('out');
modifiers = settingBothSidesOfTransition ? modifiers.filter((i, index) => index > modifiers.indexOf('out')) : modifiers;
transitionHelperOut(el, modifiers, settingBothSidesOfTransition, hide);
} else if (attrs.length > 0) {
transitionClassesOut(el, attrs, hide);
} else {
hide();
}
}
function transitionHelperIn(el, modifiers, showCallback) {
// Default values inspired by: https://material.io/design/motion/speed.html#duration
const styleValues = {
duration: modifierValue(modifiers, 'duration', 150),
origin: modifierValue(modifiers, 'origin', 'center'),
first: {
opacity: 0,
scale: modifierValue(modifiers, 'scale', 95)
},
second: {
opacity: 1,
scale: 100
}
};
transitionHelper(el, modifiers, showCallback, () => {}, styleValues);
}
function transitionHelperOut(el, modifiers, settingBothSidesOfTransition, hideCallback) {
// Make the "out" transition .5x slower than the "in". (Visually better)
// HOWEVER, if they explicitly set a duration for the "out" transition,
// use that.
const duration = settingBothSidesOfTransition ? modifierValue(modifiers, 'duration', 150) : modifierValue(modifiers, 'duration', 150) / 2;
const styleValues = {
duration: duration,
origin: modifierValue(modifiers, 'origin', 'center'),
first: {
opacity: 1,
scale: 100
},
second: {
opacity: 0,
scale: modifierValue(modifiers, 'scale', 95)
}
};
transitionHelper(el, modifiers, () => {}, hideCallback, styleValues);
}
function modifierValue(modifiers, key, fallback) {
// If the modifier isn't present, use the default.
if (modifiers.indexOf(key) === -1) return fallback; // If it IS present, grab the value after it: x-show.transition.duration.500ms
const rawValue = modifiers[modifiers.indexOf(key) + 1];
if (!rawValue) return fallback;
if (key === 'scale') {
// Check if the very next value is NOT a number and return the fallback.
// If x-show.transition.scale, we'll use the default scale value.
// That is how a user opts out of the opacity transition.
if (!isNumeric(rawValue)) return fallback;
}
if (key === 'duration') {
// Support x-show.transition.duration.500ms && duration.500
let match = rawValue.match(/([0-9]+)ms/);
if (match) return match[1];
}
if (key === 'origin') {
// Support chaining origin directions: x-show.transition.top.right
if (['top', 'right', 'left', 'center', 'bottom'].includes(modifiers[modifiers.indexOf(key) + 2])) {
return [rawValue, modifiers[modifiers.indexOf(key) + 2]].join(' ');
}
}
return rawValue;
}
function transitionHelper(el, modifiers, hook1, hook2, styleValues) {
// If the user set these style values, we'll put them back when we're done with them.
const opacityCache = el.style.opacity;
const transformCache = el.style.transform;
const transformOriginCache = el.style.transformOrigin; // If no modifiers are present: x-show.transition, we'll default to both opacity and scale.
const noModifiers = !modifiers.includes('opacity') && !modifiers.includes('scale');
const transitionOpacity = noModifiers || modifiers.includes('opacity');
const transitionScale = noModifiers || modifiers.includes('scale'); // These are the explicit stages of a transition (same stages for in and for out).
// This way you can get a birds eye view of the hooks, and the differences
// between them.
const stages = {
start() {
if (transitionOpacity) el.style.opacity = styleValues.first.opacity;
if (transitionScale) el.style.transform = `scale(${styleValues.first.scale / 100})`;
},
during() {
if (transitionScale) el.style.transformOrigin = styleValues.origin;
el.style.transitionProperty = [transitionOpacity ? `opacity` : ``, transitionScale ? `transform` : ``].join(' ').trim();
el.style.transitionDuration = `${styleValues.duration / 1000}s`;
el.style.transitionTimingFunction = `cubic-bezier(0.4, 0.0, 0.2, 1)`;
},
show() {
hook1();
},
end() {
if (transitionOpacity) el.style.opacity = styleValues.second.opacity;
if (transitionScale) el.style.transform = `scale(${styleValues.second.scale / 100})`;
},
hide() {
hook2();
},
cleanup() {
if (transitionOpacity) el.style.opacity = opacityCache;
if (transitionScale) el.style.transform = transformCache;
if (transitionScale) el.style.transformOrigin = transformOriginCache;
el.style.transitionProperty = null;
el.style.transitionDuration = null;
el.style.transitionTimingFunction = null;
}
};
transition(el, stages);
}
function transitionClassesIn(el, directives, showCallback) {
const enter = (directives.find(i => i.value === 'enter') || {
expression: ''
}).expression.split(' ').filter(i => i !== '');
const enterStart = (directives.find(i => i.value === 'enter-start') || {
expression: ''
}).expression.split(' ').filter(i => i !== '');
const enterEnd = (directives.find(i => i.value === 'enter-end') || {
expression: ''
}).expression.split(' ').filter(i => i !== '');
transitionClasses(el, enter, enterStart, enterEnd, showCallback, () => {});
}
function transitionClassesOut(el, directives, hideCallback) {
const leave = (directives.find(i => i.value === 'leave') || {
expression: ''
}).expression.split(' ').filter(i => i !== '');
const leaveStart = (directives.find(i => i.value === 'leave-start') || {
expression: ''
}).expression.split(' ').filter(i => i !== '');
const leaveEnd = (directives.find(i => i.value === 'leave-end') || {
expression: ''
}).expression.split(' ').filter(i => i !== '');
transitionClasses(el, leave, leaveStart, leaveEnd, () => {}, hideCallback);
}
function transitionClasses(el, classesDuring, classesStart, classesEnd, hook1, hook2) {
const originalClasses = el.__x_original_classes || [];
const stages = {
start() {
el.classList.add(...classesStart);
},
during() {
el.classList.add(...classesDuring);
},
show() {
hook1();
},
end() {
// Don't remove classes that were in the original class attribute.
el.classList.remove(...classesStart.filter(i => !originalClasses.includes(i)));
el.classList.add(...classesEnd);
},
hide() {
hook2();
},
cleanup() {
el.classList.remove(...classesDuring.filter(i => !originalClasses.includes(i)));
el.classList.remove(...classesEnd.filter(i => !originalClasses.includes(i)));
}
};
transition(el, stages);
}
function transition(el, stages) {
stages.start();
stages.during();
requestAnimationFrame(() => {
// Note: Safari's transitionDuration property will list out comma separated transition durations
// for every single transition property. Let's grab the first one and call it a day.
let duration = Number(getComputedStyle(el).transitionDuration.replace(/,.*/, '').replace('s', '')) * 1000;
stages.show();
requestAnimationFrame(() => {
stages.end();
setTimeout(() => {
stages.hide(); // Adding an "isConnected" check, in case the callback
// removed the element from the DOM.
if (el.isConnected) {
stages.cleanup();
}
}, duration);
});
});
}
function isNumeric(subject) {
return !isNaN(subject);
}
function handleForDirective(component, el, expression, initialUpdate, extraVars) {
if (el.tagName.toLowerCase() !== 'template') console.warn('Alpine: [x-for] directive should only be added to <template> tags.');
const {
single,
bunch,
iterator1,
iterator2
} = parseFor(expression);
var items;
const ifAttr = getXAttrs(el, 'if')[0];
if (ifAttr && !component.evaluateReturnExpression(el, ifAttr.expression)) {
// If there is an "x-if" attribute in conjunction with an x-for,
// AND x-if resolves to false, just pretend the x-for is
// empty, effectively hiding it.
items = [];
} else {
items = component.evaluateReturnExpression(el, bunch, extraVars);
} // As we walk the array, we'll also walk the DOM (updating/creating as we go).
var previousEl = el;
items.forEach((i, index, group) => {
const currentKey = getThisIterationsKeyFromTemplateTag(component, el, single, iterator1, iterator2, i, index, group);
let currentEl = previousEl.nextElementSibling; // Let's check and see if the x-for has already generated an element last time it ran.
if (currentEl && currentEl.__x_for_key !== undefined) {
// If the the key's don't match.
if (currentEl.__x_for_key !== currentKey) {
// We'll look ahead to see if we can find it further down.
var tmpCurrentEl = currentEl;
while (tmpCurrentEl) {
// If we found it later in the DOM.
if (tmpCurrentEl.__x_for_key === currentKey) {
// Move it to where it's supposed to be in the DOM.
el.parentElement.insertBefore(tmpCurrentEl, currentEl); // And set it as the current element as if we just created it.
currentEl = tmpCurrentEl;
break;
}
tmpCurrentEl = tmpCurrentEl.nextElementSibling && tmpCurrentEl.nextElementSibling.__x_for_key !== undefined ? tmpCurrentEl.nextElementSibling : false;
}
} // Temporarily remove the key indicator to allow the normal "updateElements" to work
delete currentEl.__x_for_key;
let xForVars = {};
xForVars[single] = i;
if (iterator1) xForVars[iterator1] = index;
if (iterator2) xForVars[iterator2] = group;
currentEl.__x_for = xForVars;
component.updateElements(currentEl, () => {
return currentEl.__x_for;
});
} else {
// There are no more .__x_for_key elements, meaning the page is first loading, OR, there are
// extra items in the array that need to be added as new elements.
// Let's create a clone from the template.
const clone = document.importNode(el.content, true);
if (clone.childElementCount !== 1) console.warn('Alpine: <template> tag with [x-for] encountered with multiple element roots. Make sure <template> only has a single child node.'); // Insert it where we are in the DOM.
el.parentElement.insertBefore(clone, currentEl); // Set it as the current element.
currentEl = previousEl.nextElementSibling; // And transition it in if it's not the first page load.
transitionIn(currentEl, () => {}, initialUpdate); // Now, let's walk the new DOM node and initialize everything,
// including new nested components.
// Note we are resolving the "extraData" alias stuff from the dom element value so that it's
// always up to date for listener handlers that don't get re-registered.
let xForVars = {};
xForVars[single] = i;
if (iterator1) xForVars[iterator1] = index;
if (iterator2) xForVars[iterator2] = group;
currentEl.__x_for = xForVars;
component.initializeElements(currentEl, () => {
return currentEl.__x_for;
});
}
currentEl.__x_for_key = currentKey;
previousEl = currentEl;
}); // Now that we've added/updated/moved all the elements for the current state of the loop.
// Anything left over, we can get rid of.
var nextElementFromOldLoop = previousEl.nextElementSibling && previousEl.nextElementSibling.__x_for_key !== undefined ? previousEl.nextElementSibling : false;
while (nextElementFromOldLoop) {
const nextElementFromOldLoopImmutable = nextElementFromOldLoop;
const nextSibling = nextElementFromOldLoop.nextElementSibling;
transitionOut(nextElementFromOldLoop, () => {
nextElementFromOldLoopImmutable.remove();
});
nextElementFromOldLoop = nextSibling && nextSibling.__x_for_key !== undefined ? nextSibling : false;
}
} // This was taken from VueJS 2.* core. Thanks Vue!
function parseFor(expression) {
const forIteratorRE = /,([^,\}\]]*)(?:,([^,\}\]]*))?$/;
const stripParensRE = /^\(|\)$/g;
const forAliasRE = /([\s\S]*?)\s+(?:in|of)\s+([\s\S]*)/;
const inMatch = expression.match(forAliasRE);
if (!inMatch) return;
const res = {};
res.bunch = inMatch[2].trim();
const single = inMatch[1].trim().replace(stripParensRE, '');
const iteratorMatch = single.match(forIteratorRE);
if (iteratorMatch) {
res.single = single.replace(forIteratorRE, '').trim();
res.iterator1 = iteratorMatch[1].trim();
if (iteratorMatch[2]) {
res.iterator2 = iteratorMatch[2].trim();
}
} else {
res.single = single;
}
return res;
}
function getThisIterationsKeyFromTemplateTag(component, el, single, iterator1, iterator2, i, index, group) {
const keyAttr = getXAttrs(el, 'bind').filter(attr => attr.value === 'key')[0];
let keyAliases = {
[single]: i
};
if (iterator1) keyAliases[iterator1] = index;
if (iterator2) keyAliases[iterator2] = group;
return keyAttr ? component.evaluateReturnExpression(el, keyAttr.expression, () => keyAliases) : index;
}
function handleAttributeBindingDirective(component, el, attrName, expression, extraVars) {
var value = component.evaluateReturnExpression(el, expression, extraVars);
if (attrName === 'value') {
// If nested model key is undefined, set the default value to empty string.
if (value === undefined && expression.match(/\./).length) {
value = '';
}
if (el.type === 'radio') {
el.checked = el.value == value;
} else if (el.type === 'checkbox') {
if (Array.isArray(value)) {
// I'm purposely not using Array.includes here because it's
// strict, and because of Numeric/String mis-casting, I
// want the "includes" to be "fuzzy".
let valueFound = false;
value.forEach(val => {
if (val == el.value) {
valueFound = true;
}
});
el.checked = valueFound;
} else {
el.checked = !!value;
} // If we are explicitly binding a string to the :value, set the string,
// If the value is a boolean, leave it alone, it will be set to "on"
// automatically.
if (typeof value === 'string') {
el.value = value;
}
} else if (el.tagName === 'SELECT') {
updateSelect(el, value);
} else {
el.value = value;
}
} else if (attrName === 'class') {
if (Array.isArray(value)) {
const originalClasses = el.__x_original_classes || [];
el.setAttribute('class', arrayUnique(originalClasses.concat(value)).join(' '));
} else if (typeof value === 'object') {
Object.keys(value).forEach(classNames => {
if (value[classNames]) {
classNames.split(' ').forEach(className => el.classList.add(className));
} else {
classNames.split(' ').forEach(className => el.classList.remove(className));
}
});
} else {
const originalClasses = el.__x_original_classes || [];
const newClasses = value.split(' ');
el.setAttribute('class', arrayUnique(originalClasses.concat(newClasses)).join(' '));
}
} else if (isBooleanAttr(attrName)) {
// Boolean attributes have to be explicitly added and removed, not just set.
if (!!value) {
el.setAttribute(attrName, '');
} else {
el.removeAttribute(attrName);
}
} else {
el.setAttribute(attrName, value);
}
}
function updateSelect(el, value) {
const arrayWrappedValue = [].concat(value).map(value => {
return value + '';
});
Array.from(el.options).forEach(option => {
option.selected = arrayWrappedValue.includes(option.value || option.text);
});
}
function handleShowDirective(component, el, value, modifiers, initialUpdate = false) {
const hide = () => {
el.style.display = 'none';
};
const show = () => {
if (el.style.length === 1 && el.style.display === 'none') {
el.removeAttribute('style');
} else {
el.style.removeProperty('display');
}
};
if (initialUpdate === true) {
if (value) {
show();
} else {
hide();
}
return;
}
const handle = resolve => {
if (!value) {
if (el.style.display !== 'none') {
transitionOut(el, () => {
resolve(() => {
hide();
});
});
} else {
resolve(() => {});
}
} else {
if (el.style.display !== '') {
transitionIn(el, () => {
show();
});
} // Resolve immediately, only hold up parent `x-show`s for hidin.
resolve(() => {});
}
}; // The working of x-show is a bit complex because we need to
// wait for any child transitions to finish before hiding
// some element. Also, this has to be done recursively.
// If x-show.immediate, foregoe the waiting.
if (modifiers.includes('immediate')) {
handle(finish => finish());
return;
} // x-show is encountered during a DOM tree walk. If an element
// we encounter is NOT a child of another x-show element we
// can execute the previous x-show stack (if one exists).
if (component.showDirectiveLastElement && !component.showDirectiveLastElement.contains(el)) {
component.executeAndClearRemainingShowDirectiveStack();
} // We'll push the handler onto a stack to be handled later.
component.showDirectiveStack.push(handle);
component.showDirectiveLastElement = el;
}
function handleIfDirective(component, el, expressionResult, initialUpdate, extraVars) {
if (el.nodeName.toLowerCase() !== 'template') console.warn(`Alpine: [x-if] directive should only be added to <template> tags. See https://github.com/alpinejs/alpine#x-if`);
const elementHasAlreadyBeenAdded = el.nextElementSibling && el.nextElementSibling.__x_inserted_me === true;
if (expressionResult && !elementHasAlreadyBeenAdded) {
const clone = document.importNode(el.content, true);
el.parentElement.insertBefore(clone, el.nextElementSibling);
el.nextElementSibling.__x_inserted_me = true;
transitionIn(el.nextElementSibling, () => {}, initialUpdate);
component.initializeElements(el.nextElementSibling, extraVars);
} else if (!expressionResult && elementHasAlreadyBeenAdded) {
transitionOut(el.nextElementSibling, () => {
el.nextElementSibling.remove();
}, initialUpdate);
}
}
function registerListener(component, el, event, modifiers, expression, extraVars = {}) {
if (modifiers.includes('away')) {
let handler = e => {
// Don't do anything if the click came form the element or within it.
if (el.contains(e.target)) return; // Don't do anything if this element isn't currently visible.
if (el.offsetWidth < 1 && el.offsetHeight < 1) return; // Now that we are sure the element is visible, AND the click
// is from outside it, let's run the expression.
runListenerHandler(component, expression, e, extraVars);
if (modifiers.includes('once')) {
document.removeEventListener(event, handler);
}
}; // Listen for this event at the root level.
document.addEventListener(event, handler);
} else {
let listenerTarget = modifiers.includes('window') ? window : modifiers.includes('document') ? document : el;
let handler = e => {
// Remove this global event handler if the element that declared it
// has been removed. It's now stale.
if (listenerTarget === window || listenerTarget === document) {
if (!document.body.contains(el)) {
listenerTarget.removeEventListener(event, handler);
return;
}
}
if (isKeyEvent(event)) {
if (isListeningForASpecificKeyThatHasntBeenPressed(e, modifiers)) {
return;
}
}
if (modifiers.includes('prevent')) e.preventDefault();
if (modifiers.includes('stop')) e.stopPropagation();
const returnValue = runListenerHandler(component, expression, e, extraVars);
if (returnValue === false) {
e.preventDefault();
} else {
if (modifiers.includes('once')) {
listenerTarget.removeEventListener(event, handler);
}
}
};
if (modifiers.includes('debounce')) {
let nextModifier = modifiers[modifiers.indexOf('debounce') + 1] || 'invalid-wait';
let wait = isNumeric(nextModifier.split('ms')[0]) ? Number(nextModifier.split('ms')[0]) : 250;
handler = debounce(handler, wait);
}
listenerTarget.addEventListener(event, handler);
}
}
function runListenerHandler(component, expression, e, extraVars) {
return component.evaluateCommandExpression(e.target, expression, () => {
return _objectSpread2({}, extraVars(), {
'$event': e
});
});
}
function isKeyEvent(event) {
return ['keydown', 'keyup'].includes(event);
}
function isListeningForASpecificKeyThatHasntBeenPressed(e, modifiers) {
let keyModifiers = modifiers.filter(i => {
return !['window', 'document', 'prevent', 'stop'].includes(i);
});
if (keyModifiers.includes('debounce')) {
let debounceIndex = keyModifiers.indexOf('debounce');
keyModifiers.splice(debounceIndex, isNumeric((keyModifiers[debounceIndex + 1] || 'invalid-wait').split('ms')[0]) ? 2 : 1);
} // If no modifier is specified, we'll call it a press.
if (keyModifiers.length === 0) return false; // If one is passed, AND it matches the key pressed, we'll call it a press.
if (keyModifiers.length === 1 && keyModifiers[0] === keyToModifier(e.key)) return false; // The user is listening for key combinations.
const systemKeyModifiers = ['ctrl', 'shift', 'alt', 'meta', 'cmd', 'super'];
const selectedSystemKeyModifiers = systemKeyModifiers.filter(modifier => keyModifiers.includes(modifier));
keyModifiers = keyModifiers.filter(i => !selectedSystemKeyModifiers.includes(i));
if (selectedSystemKeyModifiers.length > 0) {
const activelyPressedKeyModifiers = selectedSystemKeyModifiers.filter(modifier => {
// Alias "cmd" and "super" to "meta"
if (modifier === 'cmd' || modifier === 'super') modifier = 'meta';
return e[`${modifier}Key`];
}); // If all the modifiers selected are pressed, ...
if (activelyPressedKeyModifiers.length === selectedSystemKeyModifiers.length) {
// AND the remaining key is pressed as well. It's a press.
if (keyModifiers[0] === keyToModifier(e.key)) return false;
}
} // We'll call it NOT a valid keypress.
return true;
}
function keyToModifier(key) {
switch (key) {
case '/':
return 'slash';
case ' ':
case 'Spacebar':
return 'space';
default:
return kebabCase(key);
}
}
function registerModelListener(component, el, modifiers, expression, extraVars) {
// If the element we are binding to is a select, a radio, or checkbox
// we'll listen for the change event instead of the "input" event.
var event = el.tagName.toLowerCase() === 'select' || ['checkbox', 'radio'].includes(el.type) || modifiers.includes('lazy') ? 'change' : 'input';
const listenerExpression = `${expression} = rightSideOfExpression($event, ${expression})`;
registerListener(component, el, event, modifiers, listenerExpression, () => {
return _objectSpread2({}, extraVars(), {
rightSideOfExpression: generateModelAssignmentFunction(el, modifiers, expression)
});
});
}
function generateModelAssignmentFunction(el, modifiers, expression) {
if (el.type === 'radio') {
// Radio buttons only work properly when they share a name attribute.
// People might assume we take care of that for them, because
// they already set a shared "x-model" attribute.
if (!el.hasAttribute('name')) el.setAttribute('name', expression);
}
return (event, currentValue) => {
// Check for event.detail due to an issue where IE11 handles other events as a CustomEvent.
if (event instanceof CustomEvent && event.detail) {
return event.detail;
} else if (el.type === 'checkbox') {
// If the data we are binding to is an array, toggle it's value inside the array.
if (Array.isArray(currentValue)) {
return event.target.checked ? currentValue.concat([event.target.value]) : currentValue.filter(i => i !== event.target.value);
} else {
return event.target.checked;
}
} else if (el.tagName.toLowerCase() === 'select' && el.multiple) {
return modifiers.includes('number') ? Array.from(event.target.selectedOptions).map(option => {
const rawValue = option.value || option.text;
const number = rawValue ? parseFloat(rawValue) : null;
return isNaN(number) ? rawValue : number;
}) : Array.from(event.target.selectedOptions).map(option => {
return option.value || option.text;
});
} else {
const rawValue = event.target.value;
const number = rawValue ? parseFloat(rawValue) : null;
return modifiers.includes('number') ? isNaN(number) ? rawValue : number : modifiers.includes('trim') ? rawValue.trim() : rawValue;
}
};
}
/**
* Copyright (C) 2017 salesforce.com, inc.
*/
const { isArray } = Array;
const { getPrototypeOf, create: ObjectCreate, defineProperty: ObjectDefineProperty, defineProperties: ObjectDefineProperties, isExtensible, getOwnPropertyDescriptor, getOwnPropertyNames, getOwnPropertySymbols, preventExtensions, hasOwnProperty, } = Object;
const { push: ArrayPush, concat: ArrayConcat, map: ArrayMap, } = Array.prototype;
function isUndefined(obj) {
return obj === undefined;
}
function isFunction(obj) {
return typeof obj === 'function';
}
function isObject(obj) {
return typeof obj === 'object';
}
const proxyToValueMap = new WeakMap();
function registerProxy(proxy, value) {
proxyToValueMap.set(proxy, value);
}
const unwrap = (replicaOrAny) => proxyToValueMap.get(replicaOrAny) || replicaOrAny;
function wrapValue(membrane, value) {
return membrane.valueIsObservable(value) ? membrane.getProxy(value) : value;
}
/**
* Unwrap property descriptors will set value on original descriptor
* We only need to unwrap if value is specified
* @param descriptor external descrpitor provided to define new property on original value
*/
function unwrapDescriptor(descriptor) {
if (hasOwnProperty.call(descriptor, 'value')) {
descriptor.value = unwrap(descriptor.value);
}
return descriptor;
}
function lockShadowTarget(membrane, shadowTarget, originalTarget) {
const targetKeys = ArrayConcat.call(getOwnPropertyNames(originalTarget), getOwnPropertySymbols(originalTarget));
targetKeys.forEach((key) => {
let descriptor = getOwnPropertyDescriptor(originalTarget, key);
// We do not need to wrap the descriptor if configurable
// Because we can deal with wrapping it when user goes through
// Get own property descriptor. There is also a chance that this descriptor
// could change sometime in the future, so we can defer wrapping
// until we need to
if (!descriptor.configurable) {
descriptor = wrapDescriptor(membrane, descriptor, wrapValue);
}
ObjectDefineProperty(shadowTarget, key, descriptor);
});
preventExtensions(shadowTarget);
}
class ReactiveProxyHandler {
constructor(membrane, value) {
this.originalTarget = value;
this.membrane = membrane;
}
get(shadowTarget, key) {
const { originalTarget, membrane } = this;
const value = originalTarget[key];
const { valueObserved } = membrane;
valueObserved(originalTarget, key);
return membrane.getProxy(value);
}
set(shadowTarget, key, value) {
const { originalTarget, membrane: { valueMutated } } = this;
const oldValue = originalTarget[key];
if (oldValue !== value) {
originalTarget[key] = value;
valueMutated(originalTarget, key);
}
else if (key === 'length' && isArray(originalTarget)) {
// fix for issue #236: push will add the new index, and by the time length
// is updated, the internal length is already equal to the new length value
// therefore, the oldValue is equal to the value. This is the forking logic
// to support this use case.
valueMutated(originalTarget, key);
}
return true;
}
deleteProperty(shadowTarget, key) {
const { originalTarget, membrane: { valueMutated } } = this;
delete originalTarget[key];
valueMutated(originalTarget, key);
return true;
}
apply(shadowTarget, thisArg, argArray) {
/* No op */
}
construct(target, argArray, newTarget) {
/* No op */
}
has(shadowTarget, key) {
const { originalTarget, membrane: { valueObserved } } = this;
valueObserved(originalTarget, key);
return key in originalTarget;
}
ownKeys(shadowTarget) {
const { originalTarget } = this;
return ArrayConcat.call(getOwnPropertyNames(originalTarget), getOwnPropertySymbols(originalTarget));
}
isExtensible(shadowTarget) {
const shadowIsExtensible = isExtensible(shadowTarget);
if (!shadowIsExtensible) {
return shadowIsExtensible;
}
const { originalTarget, membrane } = this;
const targetIsExtensible = isExtensible(originalTarget);
if (!targetIsExtensible) {
lockShadowTarget(membrane, shadowTarget, originalTarget);
}
return targetIsExtensible;
}
setPrototypeOf(shadowTarget, prototype) {
}
getPrototypeOf(shadowTarget) {
const { originalTarget } = this;
return getPrototypeOf(originalTarget);
}
getOwnPropertyDescriptor(shadowTarget, key) {
const { originalTarget, membrane } = this;
const { valueObserved } = this.membrane;
// keys looked up via hasOwnProperty need to be reactive
valueObserved(originalTarget, key);
let desc = getOwnPropertyDescriptor(originalTarget, key);
if (isUndefined(desc)) {
return desc;
}
const shadowDescriptor = getOwnPropertyDescriptor(shadowTarget, key);
if (!isUndefined(shadowDescriptor)) {
return shadowDescriptor;
}
// Note: by accessing the descriptor, the key is marked as observed
// but access to the value, setter or getter (if available) cannot observe
// mutations, just like regular methods, in which case we just do nothing.
desc = wrapDescriptor(membrane, desc, wrapValue);
if (!desc.configurable) {
// If descriptor from original target is not configurable,
// We must copy the wrapped descriptor over to the shadow target.
// Otherwise, proxy will throw an invariant error.
// This is our last chance to lock the value.
// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Proxy/handler/getOwnPropertyDescriptor#Invariants
ObjectDefineProperty(shadowTarget, key, desc);
}
return desc;
}
preventExtensions(shadowTarget) {
const { originalTarget, membrane } = this;
lockShadowTarget(membrane, shadowTarget, originalTarget);
preventExtensions(originalTarget);
return true;
}
defineProperty(shadowTarget, key, descriptor) {
const { originalTarget, membrane } = this;
const { valueMutated } = membrane;
const { configurable } = descriptor;
// We have to check for value in descriptor
// because Object.freeze(proxy) calls this method
// with only { configurable: false, writeable: false }
// Additionally, method will only be called with writeable:false
// if the descriptor has a value, as opposed to getter/setter
// So we can just check if writable is present and then see if
// value is present. This eliminates getter and setter descriptors
if (hasOwnProperty.call(descriptor, 'writable') && !hasOwnProperty.call(descriptor, 'value')) {
const originalDescriptor = getOwnPropertyDescriptor(originalTarget, key);
descriptor.value = originalDescriptor.value;
}
ObjectDefineProperty(originalTarget, key, unwrapDescriptor(descriptor));
if (configurable === false) {
ObjectDefineProperty(shadowTarget, key, wrapDescriptor(membrane, descriptor, wrapValue));
}
valueMutated(originalTarget, key);
return true;
}
}
function wrapReadOnlyValue(membrane, value) {
return membrane.valueIsObservable(value) ? membrane.getReadOnlyProxy(value) : value;
}
class ReadOnlyHandler {
constructor(membrane, value) {
this.originalTarget = value;
this.membrane = membrane;
}
get(shadowTarget, key) {
const { membrane, originalTarget } = this;
const value = originalTarget[key];
const { valueObserved } = membrane;
valueObserved(originalTarget, key);
return membrane.getReadOnlyProxy(value);
}
set(shadowTarget, key, value) {
return false;
}
deleteProperty(shadowTarget, key) {
return false;
}
apply(shadowTarget, thisArg, argArray) {
/* No op */
}
construct(target, argArray, newTarget) {
/* No op */
}
has(shadowTarget, key) {
const { originalTarget, membrane: { valueObserved } } = this;
valueObserved(originalTarget, key);
return key in originalTarget;
}
ownKeys(shadowTarget) {
const { originalTarget } = this;
return ArrayConcat.call(getOwnPropertyNames(originalTarget), getOwnPropertySymbols(originalTarget));
}
setPrototypeOf(shadowTarget, prototype) {
}
getOwnPropertyDescriptor(shadowTarget, key) {
const { originalTarget, membrane } = this;
const { valueObserved } = membrane;
// keys looked up via hasOwnProperty need to be reactive
valueObserved(originalTarget, key);
let desc = getOwnPropertyDescriptor(originalTarget, key);
if (isUndefined(desc)) {
return desc;
}
const shadowDescriptor = getOwnPropertyDescriptor(shadowTarget, key);
if (!isUndefined(shadowDescriptor)) {
return shadowDescriptor;
}
// Note: by accessing the descriptor, the key is marked as observed
// but access to the value or getter (if available) cannot be observed,
// just like regular methods, in which case we just do nothing.
desc = wrapDescriptor(membrane, desc, wrapReadOnlyValue);
if (hasOwnProperty.call(desc, 'set')) {
desc.set = undefined; // readOnly membrane does not allow setters
}
if (!desc.configurable) {
// If descriptor from original target is not configurable,
// We must copy the wrapped descriptor over to the shadow target.
// Otherwise, proxy will throw an invariant error.
// This is our last chance to lock the value.
// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Proxy/handler/getOwnPropertyDescriptor#Invariants
ObjectDefineProperty(shadowTarget, key, desc);
}
return desc;
}
preventExtensions(shadowTarget) {
return false;
}
defineProperty(shadowTarget, key, descriptor) {
return false;
}
}
function createShadowTarget(value) {
let shadowTarget = undefined;
if (isArray(value)) {
shadowTarget = [];
}
else if (isObject(value)) {
shadowTarget = {};
}
return shadowTarget;
}
const ObjectDotPrototype = Object.prototype;
function defaultValueIsObservable(value) {
// intentionally checking for null
if (value === null) {
return false;
}
// treat all non-object types, including undefined, as non-observable values
if (typeof value !== 'object') {
return false;
}
if (isArray(value)) {
return true;
}
const proto = getPrototypeOf(value);
return (proto === ObjectDotPrototype || proto === null || getPrototypeOf(proto) === null);
}
const defaultValueObserved = (obj, key) => {
/* do nothing */
};
const defaultValueMutated = (obj, key) => {
/* do nothing */
};
const defaultValueDistortion = (value) => value;
function wrapDescriptor(membrane, descriptor, getValue) {
const { set, get } = descriptor;
if (hasOwnProperty.call(descriptor, 'value')) {
descriptor.value = getValue(membrane, descriptor.value);
}
else {
if (!isUndefined(get)) {
descriptor.get = function () {
// invoking the original getter with the original target
return getValue(membrane, get.call(unwrap(this)));
};
}
if (!isUndefined(set)) {
descriptor.set = function (value) {
// At this point we don't have a clear indication of whether
// or not a valid mutation will occur, we don't have the key,
// and we are not sure why and how they are invoking this setter.
// Nevertheless we preserve the original semantics by invoking the
// original setter with the original target and the unwrapped value
set.call(unwrap(this), membrane.unwrapProxy(value));
};
}
}
return descriptor;
}
class ReactiveMembrane {
constructor(options) {
this.valueDistortion = defaultValueDistortion;
this.valueMutated = defaultValueMutated;
this.valueObserved = defaultValueObserved;
this.valueIsObservable = defaultValueIsObservable;
this.objectGraph = new WeakMap();
if (!isUndefined(options)) {
const { valueDistortion, valueMutated, valueObserved, valueIsObservable } = options;
this.valueDistortion = isFunction(valueDistortion) ? valueDistortion : defaultValueDistortion;
this.valueMutated = isFunction(valueMutated) ? valueMutated : defaultValueMutated;
this.valueObserved = isFunction(valueObserved) ? valueObserved : defaultValueObserved;
this.valueIsObservable = isFunction(valueIsObservable) ? valueIsObservable : defaultValueIsObservable;
}
}
getProxy(value) {
const unwrappedValue = unwrap(value);
const distorted = this.valueDistortion(unwrappedValue);
if (this.valueIsObservable(distorted)) {
const o = this.getReactiveState(unwrappedValue, distorted);
// when trying to extract the writable version of a readonly
// we return the readonly.
return o.readOnly === value ? value : o.reactive;
}
return distorted;
}
getReadOnlyProxy(value) {
value = unwrap(value);
const distorted = this.valueDistortion(value);
if (this.valueIsObservable(distorted)) {
return this.getReactiveState(value, distorted).readOnly;
}
return distorted;
}
unwrapProxy(p) {
return unwrap(p);
}
getReactiveState(value, distortedValue) {
const { objectGraph, } = this;
let reactiveState = objectGraph.get(distortedValue);
if (reactiveState) {
return reactiveState;
}
const membrane = this;
reactiveState = {
get reactive() {
const reactiveHandler = new ReactiveProxyHandler(membrane, distortedValue);
// caching the reactive proxy after the first time it is accessed
const proxy = new Proxy(createShadowTarget(distortedValue), reactiveHandler);
registerProxy(proxy, value);
ObjectDefineProperty(this, 'reactive', { value: proxy });
return proxy;
},
get readOnly() {
const readOnlyHandler = new ReadOnlyHandler(membrane, distortedValue);
// caching the readOnly proxy after the first time it is accessed
const proxy = new Proxy(createShadowTarget(distortedValue), readOnlyHandler);
registerProxy(proxy, value);
ObjectDefineProperty(this, 'readOnly', { value: proxy });
return proxy;
}
};
objectGraph.set(distortedValue, reactiveState);
return reactiveState;
}
}
/** version: 0.26.0 */
function wrap(data, mutationCallback) {
let membrane = new ReactiveMembrane({
valueMutated(target, key) {
mutationCallback(target, key);
}
});
return {
data: membrane.getProxy(data),
membrane: membrane
};
}
function unwrap$1(membrane, observable) {
let unwrappedData = membrane.unwrapProxy(observable);
let copy = {};
Object.keys(unwrappedData).forEach(key => {
if (['$el', '$refs', '$nextTick', '$watch'].includes(key)) return;
copy[key] = unwrappedData[key];
});
return copy;
}
class Component {
constructor(el, seedDataForCloning = null) {
this.$el = el;
const dataAttr = this.$el.getAttribute('x-data');
const dataExpression = dataAttr === '' ? '{}' : dataAttr;
const initExpression = this.$el.getAttribute('x-init');
this.unobservedData = seedDataForCloning ? seedDataForCloning : saferEval(dataExpression, {});
// Construct a Proxy-based observable. This will be used to handle reactivity.
let {
membrane,
data
} = this.wrapDataInObservable(this.unobservedData);
this.$data = data;
this.membrane = membrane; // After making user-supplied data methods reactive, we can now add
// our magic properties to the original data for access.
this.unobservedData.$el = this.$el;
this.unobservedData.$refs = this.getRefsProxy();
this.nextTickStack = [];
this.unobservedData.$nextTick = callback => {
this.nextTickStack.push(callback);
};
this.watchers = {};
this.unobservedData.$watch = (property, callback) => {
if (!this.watchers[property]) this.watchers[property] = [];
this.watchers[property].push(callback);
};
this.showDirectiveStack = [];
this.showDirectiveLastElement;
var initReturnedCallback; // If x-init is present AND we aren't cloning (skip x-init on clone)
if (initExpression && !seedDataForCloning) {
// We want to allow data manipulation, but not trigger DOM updates just yet.
// We haven't even initialized the elements with their Alpine bindings. I mean c'mon.
this.pauseReactivity = true;
initReturnedCallback = this.evaluateReturnExpression(this.$el, initExpression);
this.pauseReactivity = false;
} // Register all our listeners and set all our attribute bindings.
this.initializeElements(this.$el); // Use mutation observer to detect new elements being added within this component at run-time.
// Alpine's just so darn flexible amirite?
this.listenForNewElementsToInitialize();
if (typeof initReturnedCallback === 'function') {
// Run the callback returned form the "x-init" hook to allow the user to do stuff after
// Alpine's got it's grubby little paws all over everything.
initReturnedCallback.call(this.$data);
}
}
getUnobservedData() {
return unwrap$1(this.membrane, this.$data);
}
wrapDataInObservable(data) {
var self = this;
let updateDom = debounce(function () {
self.updateElements(self.$el);
}, 0);
return wrap(data, (target, key) => {
if (self.watchers[key]) {
// If there's a watcher for this specific key, run it.
self.watchers[key].forEach(callback => callback(target[key]));
} else {
// Let's walk through the watchers with "dot-notation" (foo.bar) and see
// if this mutation fits any of them.
Object.keys(self.watchers).filter(i => i.includes('.')).forEach(fullDotNotationKey => {
let dotNotationParts = fullDotNotationKey.split('.'); // If this dot-notation watcher's last "part" doesn't match the current
// key, then skip it early for performance reasons.
if (key !== dotNotationParts[dotNotationParts.length - 1]) return; // Now, walk through the dot-notation "parts" recursively to find
// a match, and call the watcher if one's found.
dotNotationParts.reduce((comparisonData, part) => {
if (Object.is(target, comparisonData)) {
// Run the watchers.
self.watchers[fullDotNotationKey].forEach(callback => callback(target[key]));
}
return comparisonData[part];
}, self.getUnobservedData());
});
} // Don't react to data changes for cases like the `x-created` hook.
if (self.pauseReactivity) return;
updateDom();
});
}
walkAndSkipNestedComponents(el, callback, initializeComponentCallback = () => {}) {
walk(el, el => {
// We've hit a component.
if (el.hasAttribute('x-data')) {
// If it's not the current one.
if (!el.isSameNode(this.$el)) {
// Initialize it if it's not.
if (!el.__x) initializeComponentCallback(el); // Now we'll let that sub-component deal with itself.
return false;
}
}
return callback(el);
});
}
initializeElements(rootEl, extraVars = () => {}) {
this.walkAndSkipNestedComponents(rootEl, el => {
// Don't touch spawns from for loop
if (el.__x_for_key !== undefined) return false;
this.initializeElement(el, extraVars);
}, el => {
el.__x = new Component(el);
});
this.executeAndClearRemainingShowDirectiveStack(); // Walk through the $nextTick stack and clear it as we go.
while (this.nextTickStack.length > 0) {
this.nextTickStack.shift()();
}
}
initializeElement(el, extraVars) {
// To support class attribute merging, we have to know what the element's
// original class attribute looked like for reference.
if (el.hasAttribute('class') && getXAttrs(el).length > 0) {
el.__x_original_classes = el.getAttribute('class').split(' ');
}
this.registerListeners(el, extraVars);
this.resolveBoundAttributes(el, true, extraVars);
}
updateElements(rootEl, extraVars = () => {}) {
this.walkAndSkipNestedComponents(rootEl, el => {
// Don't touch spawns from for loop (and check if the root is actually a for loop in a parent, don't skip it.)
if (el.__x_for_key !== undefined && !el.isSameNode(this.$el)) return false;
this.updateElement(el, extraVars);
}, el => {
el.__x = new Component(el);
});
this.executeAndClearRemainingShowDirectiveStack(); // Walk through the $nextTick stack and clear it as we go.
while (this.nextTickStack.length > 0) {
this.nextTickStack.shift()();
}
}
executeAndClearRemainingShowDirectiveStack() {
// The goal here is to start all the x-show transitions
// and build a nested promise chain so that elements
// only hide when the children are finished hiding.
this.showDirectiveStack.reverse().map(thing => {
return new Promise(resolve => {
thing(finish => {
resolve(finish);
});
});
}).reduce((nestedPromise, promise) => {
return nestedPromise.then(() => {
return promise.then(finish => finish());
});
}, Promise.resolve(() => {})); // We've processed the handler stack. let's clear it.
this.showDirectiveStack = [];
this.showDirectiveLastElement = undefined;
}
updateElement(el, extraVars) {
this.resolveBoundAttributes(el, false, extraVars);
}
registerListeners(el, extraVars) {
getXAttrs(el).forEach(({
type,
value,
modifiers,
expression
}) => {
switch (type) {
case 'on':
registerListener(this, el, value, modifiers, expression, extraVars);
break;
case 'model':
registerModelListener(this, el, modifiers, expression, extraVars);
break;
}
});
}
resolveBoundAttributes(el, initialUpdate = false, extraVars) {
let attrs = getXAttrs(el);
attrs.forEach(({
type,
value,
modifiers,
expression
}) => {
switch (type) {
case 'model':
handleAttributeBindingDirective(this, el, 'value', expression, extraVars);
break;
case 'bind':
// The :key binding on an x-for is special, ignore it.
if (el.tagName.toLowerCase() === 'template' && value === 'key') return;
handleAttributeBindingDirective(this, el, value, expression, extraVars);
break;
case 'text':
var output = this.evaluateReturnExpression(el, expression, extraVars); // If nested model key is undefined, set the default value to empty string.
if (output === undefined && expression.match(/\./).length) {
output = '';
}
el.innerText = output;
break;
case 'html':
el.innerHTML = this.evaluateReturnExpression(el, expression, extraVars);
break;
case 'show':
var output = this.evaluateReturnExpression(el, expression, extraVars);
handleShowDirective(this, el, output, modifiers, initialUpdate);
break;
case 'if':
// If this element also has x-for on it, don't process x-if.
// We will let the "x-for" directive handle the "if"ing.
if (attrs.filter(i => i.type === 'for').length > 0) return;
var output = this.evaluateReturnExpression(el, expression, extraVars);
handleIfDirective(this, el, output, initialUpdate, extraVars);
break;
case 'for':
handleForDirective(this, el, expression, initialUpdate, extraVars);
break;
case 'cloak':
el.removeAttribute('x-cloak');
break;
}
});
}
evaluateReturnExpression(el, expression, extraVars = () => {}) {
return saferEval(expression, this.$data, _objectSpread2({}, extraVars(), {
$dispatch: this.getDispatchFunction(el)
}));
}
evaluateCommandExpression(el, expression, extraVars = () => {}) {
return saferEvalNoReturn(expression, this.$data, _objectSpread2({}, extraVars(), {
$dispatch: this.getDispatchFunction(el)
}));
}
getDispatchFunction(el) {
return (event, detail = {}) => {
el.dispatchEvent(new CustomEvent(event, {
detail,
bubbles: true
}));
};
}
listenForNewElementsToInitialize() {
const targetNode = this.$el;
const observerOptions = {
childList: true,
attributes: true,
subtree: true
};
const observer = new MutationObserver(mutations => {
for (let i = 0; i < mutations.length; i++) {
// Filter out mutations triggered from child components.
const closestParentComponent = mutations[i].target.closest('[x-data]');
if (!(closestParentComponent && closestParentComponent.isSameNode(this.$el))) return;
if (mutations[i].type === 'attributes' && mutations[i].attributeName === 'x-data') {
const rawData = saferEval(mutations[i].target.getAttribute('x-data'), {});
Object.keys(rawData).forEach(key => {
if (this.$data[key] !== rawData[key]) {
this.$data[key] = rawData[key];
}
});
}
if (mutations[i].addedNodes.length > 0) {
mutations[i].addedNodes.forEach(node => {
if (node.nodeType !== 1 || node.__x_inserted_me) return;
if (node.matches('[x-data]')) {
node.__x = new Component(node);
return;
}
this.initializeElements(node);
});
}
}
});
observer.observe(targetNode, observerOptions);
}
getRefsProxy() {
var self = this;
var refObj = {};
// One of the goals of this is to not hold elements in memory, but rather re-evaluate
// the DOM when the system needs something from it. This way, the framework is flexible and
// friendly to outside DOM changes from libraries like Vue/Livewire.
// For this reason, I'm using an "on-demand" proxy to fake a "$refs" object.
return new Proxy(refObj, {
get(object, property) {
if (property === '$isAlpineProxy') return true;
var ref; // We can't just query the DOM because it's hard to filter out refs in
// nested components.
self.walkAndSkipNestedComponents(self.$el, el => {
if (el.hasAttribute('x-ref') && el.getAttribute('x-ref') === property) {
ref = el;
}
});
return ref;
}
});
}
}
const Alpine = {
start: async function start() {
if (!isTesting()) {
await domReady();
}
this.discoverComponents(el => {
this.initializeComponent(el);
}); // It's easier and more performant to just support Turbolinks than listen
// to MutationObserver mutations at the document level.
document.addEventListener("turbolinks:load", () => {
this.discoverUninitializedComponents(el => {
this.initializeComponent(el);
});
});
this.listenForNewUninitializedComponentsAtRunTime(el => {
this.initializeComponent(el);
});
},
discoverComponents: function discoverComponents(callback) {
const rootEls = document.querySelectorAll('[x-data]');
rootEls.forEach(rootEl => {
callback(rootEl);
});
},
discoverUninitializedComponents: function discoverUninitializedComponents(callback, el = null) {
const rootEls = (el || document).querySelectorAll('[x-data]');
Array.from(rootEls).filter(el => el.__x === undefined).forEach(rootEl => {
callback(rootEl);
});
},
listenForNewUninitializedComponentsAtRunTime: function listenForNewUninitializedComponentsAtRunTime(callback) {
const targetNode = document.querySelector('body');
const observerOptions = {
childList: true,
attributes: true,
subtree: true
};
const observer = new MutationObserver(mutations => {
for (let i = 0; i < mutations.length; i++) {
if (mutations[i].addedNodes.length > 0) {
mutations[i].addedNodes.forEach(node => {
// Discard non-element nodes (like line-breaks)
if (node.nodeType !== 1) return; // Discard any changes happening within an existing component.
// They will take care of themselves.
if (node.parentElement && node.parentElement.closest('[x-data]')) return;
this.discoverUninitializedComponents(el => {
this.initializeComponent(el);
}, node.parentElement);
});
}
}
});
observer.observe(targetNode, observerOptions);
},
initializeComponent: function initializeComponent(el) {
if (!el.__x) {
el.__x = new Component(el);
}
},
clone: function clone(component, newEl) {
if (!newEl.__x) {
newEl.__x = new Component(newEl, component.getUnobservedData());
}
}
};
if (!isTesting()) {
window.Alpine = Alpine;
if (window.deferLoadingAlpine) {
window.deferLoadingAlpine(function () {
window.Alpine.start();
});
} else {
window.Alpine.start();
}
}
return Alpine;
})));