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'use strict';
function _interopNamespace(e) {
if (e && e.__esModule) return e;
var n = Object.create(null);
if (e) {
Object.keys(e).forEach(function (k) {
if (k !== 'default') {
var d = Object.getOwnPropertyDescriptor(e, k);
Object.defineProperty(n, k, d.get ? d : {
enumerable: true,
get: function () {
return e[k];
}
});
}
});
}
n['default'] = e;
return Object.freeze(n);
}
const NAMESPACE = 'infineon-design-system-stencil';
/**
* Virtual DOM patching algorithm based on Snabbdom by
* Simon Friis Vindum (@paldepind)
* Licensed under the MIT License
* https://github.com/snabbdom/snabbdom/blob/master/LICENSE
*
* Modified for Stencil's renderer and slot projection
*/
let scopeId;
let contentRef;
let hostTagName;
let useNativeShadowDom = false;
let checkSlotFallbackVisibility = false;
let checkSlotRelocate = false;
let isSvgMode = false;
let queuePending = false;
const createTime = (fnName, tagName = '') => {
{
return () => {
return;
};
}
};
const uniqueTime = (key, measureText) => {
{
return () => {
return;
};
}
};
const HYDRATED_CSS = '{visibility:hidden}.hydrated{visibility:inherit}';
const XLINK_NS = 'http://www.w3.org/1999/xlink';
/**
* Default style mode id
*/
/**
* Reusable empty obj/array
* Don't add values to these!!
*/
const EMPTY_OBJ = {};
/**
* Namespaces
*/
const SVG_NS = 'http://www.w3.org/2000/svg';
const HTML_NS = 'http://www.w3.org/1999/xhtml';
const isDef = (v) => v != null;
/**
* Check whether a value is a 'complex type', defined here as an object or a
* function.
*
* @param o the value to check
* @returns whether it's a complex type or not
*/
const isComplexType = (o) => {
// https://jsperf.com/typeof-fn-object/5
o = typeof o;
return o === 'object' || o === 'function';
};
/**
* Helper method for querying a `meta` tag that contains a nonce value
* out of a DOM's head.
*
* @param doc The DOM containing the `head` to query against
* @returns The content of the meta tag representing the nonce value, or `undefined` if no tag
* exists or the tag has no content.
*/
function queryNonceMetaTagContent(doc) {
var _a, _b, _c;
return (_c = (_b = (_a = doc.head) === null || _a === void 0 ? void 0 : _a.querySelector('meta[name="csp-nonce"]')) === null || _b === void 0 ? void 0 : _b.getAttribute('content')) !== null && _c !== void 0 ? _c : undefined;
}
/**
* Production h() function based on Preact by
* Jason Miller (@developit)
* Licensed under the MIT License
* https://github.com/developit/preact/blob/master/LICENSE
*
* Modified for Stencil's compiler and vdom
*/
// export function h(nodeName: string | d.FunctionalComponent, vnodeData: d.PropsType, child?: d.ChildType): d.VNode;
// export function h(nodeName: string | d.FunctionalComponent, vnodeData: d.PropsType, ...children: d.ChildType[]): d.VNode;
const h = (nodeName, vnodeData, ...children) => {
let child = null;
let key = null;
let slotName = null;
let simple = false;
let lastSimple = false;
const vNodeChildren = [];
const walk = (c) => {
for (let i = 0; i < c.length; i++) {
child = c[i];
if (Array.isArray(child)) {
walk(child);
}
else if (child != null && typeof child !== 'boolean') {
if ((simple = typeof nodeName !== 'function' && !isComplexType(child))) {
child = String(child);
}
if (simple && lastSimple) {
// If the previous child was simple (string), we merge both
vNodeChildren[vNodeChildren.length - 1].$text$ += child;
}
else {
// Append a new vNode, if it's text, we create a text vNode
vNodeChildren.push(simple ? newVNode(null, child) : child);
}
lastSimple = simple;
}
}
};
walk(children);
if (vnodeData) {
if (vnodeData.key) {
key = vnodeData.key;
}
if (vnodeData.name) {
slotName = vnodeData.name;
}
// normalize class / className attributes
{
const classData = vnodeData.className || vnodeData.class;
if (classData) {
vnodeData.class =
typeof classData !== 'object'
? classData
: Object.keys(classData)
.filter((k) => classData[k])
.join(' ');
}
}
}
const vnode = newVNode(nodeName, null);
vnode.$attrs$ = vnodeData;
if (vNodeChildren.length > 0) {
vnode.$children$ = vNodeChildren;
}
{
vnode.$key$ = key;
}
{
vnode.$name$ = slotName;
}
return vnode;
};
/**
* A utility function for creating a virtual DOM node from a tag and some
* possible text content.
*
* @param tag the tag for this element
* @param text possible text content for the node
* @returns a newly-minted virtual DOM node
*/
const newVNode = (tag, text) => {
const vnode = {
$flags$: 0,
$tag$: tag,
$text$: text,
$elm$: null,
$children$: null,
};
{
vnode.$attrs$ = null;
}
{
vnode.$key$ = null;
}
{
vnode.$name$ = null;
}
return vnode;
};
const Host = {};
/**
* Check whether a given node is a Host node or not
*
* @param node the virtual DOM node to check
* @returns whether it's a Host node or not
*/
const isHost = (node) => node && node.$tag$ === Host;
/**
* Parse a new property value for a given property type.
*
* While the prop value can reasonably be expected to be of `any` type as far as TypeScript's type checker is concerned,
* it is not safe to assume that the string returned by evaluating `typeof propValue` matches:
* 1. `any`, the type given to `propValue` in the function signature
* 2. the type stored from `propType`.
*
* This function provides the capability to parse/coerce a property's value to potentially any other JavaScript type.
*
* Property values represented in TSX preserve their type information. In the example below, the number 0 is passed to
* a component. This `propValue` will preserve its type information (`typeof propValue === 'number'`). Note that is
* based on the type of the value being passed in, not the type declared of the class member decorated with `@Prop`.
* ```tsx
* <my-cmp prop-val={0}></my-cmp>
* ```
*
* HTML prop values on the other hand, will always a string
*
* @param propValue the new value to coerce to some type
* @param propType the type of the prop, expressed as a binary number
* @returns the parsed/coerced value
*/
const parsePropertyValue = (propValue, propType) => {
// ensure this value is of the correct prop type
if (propValue != null && !isComplexType(propValue)) {
if (propType & 4 /* MEMBER_FLAGS.Boolean */) {
// per the HTML spec, any string value means it is a boolean true value
// but we'll cheat here and say that the string "false" is the boolean false
return propValue === 'false' ? false : propValue === '' || !!propValue;
}
if (propType & 2 /* MEMBER_FLAGS.Number */) {
// force it to be a number
return parseFloat(propValue);
}
if (propType & 1 /* MEMBER_FLAGS.String */) {
// could have been passed as a number or boolean
// but we still want it as a string
return String(propValue);
}
// redundant return here for better minification
return propValue;
}
// not sure exactly what type we want
// so no need to change to a different type
return propValue;
};
const getElement = (ref) => (getHostRef(ref).$hostElement$ );
const createEvent = (ref, name, flags) => {
const elm = getElement(ref);
return {
emit: (detail) => {
return emitEvent(elm, name, {
bubbles: !!(flags & 4 /* EVENT_FLAGS.Bubbles */),
composed: !!(flags & 2 /* EVENT_FLAGS.Composed */),
cancelable: !!(flags & 1 /* EVENT_FLAGS.Cancellable */),
detail,
});
},
};
};
/**
* Helper function to create & dispatch a custom Event on a provided target
* @param elm the target of the Event
* @param name the name to give the custom Event
* @param opts options for configuring a custom Event
* @returns the custom Event
*/
const emitEvent = (elm, name, opts) => {
const ev = plt.ce(name, opts);
elm.dispatchEvent(ev);
return ev;
};
const rootAppliedStyles = /*@__PURE__*/ new WeakMap();
const registerStyle = (scopeId, cssText, allowCS) => {
let style = styles.get(scopeId);
if (supportsConstructableStylesheets && allowCS) {
style = (style || new CSSStyleSheet());
if (typeof style === 'string') {
style = cssText;
}
else {
style.replaceSync(cssText);
}
}
else {
style = cssText;
}
styles.set(scopeId, style);
};
const addStyle = (styleContainerNode, cmpMeta, mode) => {
var _a;
const scopeId = getScopeId(cmpMeta);
const style = styles.get(scopeId);
// if an element is NOT connected then getRootNode() will return the wrong root node
// so the fallback is to always use the document for the root node in those cases
styleContainerNode = styleContainerNode.nodeType === 11 /* NODE_TYPE.DocumentFragment */ ? styleContainerNode : doc;
if (style) {
if (typeof style === 'string') {
styleContainerNode = styleContainerNode.head || styleContainerNode;
let appliedStyles = rootAppliedStyles.get(styleContainerNode);
let styleElm;
if (!appliedStyles) {
rootAppliedStyles.set(styleContainerNode, (appliedStyles = new Set()));
}
if (!appliedStyles.has(scopeId)) {
{
styleElm = doc.createElement('style');
styleElm.innerHTML = style;
// Apply CSP nonce to the style tag if it exists
const nonce = (_a = plt.$nonce$) !== null && _a !== void 0 ? _a : queryNonceMetaTagContent(doc);
if (nonce != null) {
styleElm.setAttribute('nonce', nonce);
}
styleContainerNode.insertBefore(styleElm, styleContainerNode.querySelector('link'));
}
if (appliedStyles) {
appliedStyles.add(scopeId);
}
}
}
else if (!styleContainerNode.adoptedStyleSheets.includes(style)) {
styleContainerNode.adoptedStyleSheets = [...styleContainerNode.adoptedStyleSheets, style];
}
}
return scopeId;
};
const attachStyles = (hostRef) => {
const cmpMeta = hostRef.$cmpMeta$;
const elm = hostRef.$hostElement$;
const flags = cmpMeta.$flags$;
const endAttachStyles = createTime('attachStyles', cmpMeta.$tagName$);
const scopeId = addStyle(elm.shadowRoot ? elm.shadowRoot : elm.getRootNode(), cmpMeta);
if (flags & 10 /* CMP_FLAGS.needsScopedEncapsulation */) {
// only required when we're NOT using native shadow dom (slot)
// or this browser doesn't support native shadow dom
// and this host element was NOT created with SSR
// let's pick out the inner content for slot projection
// create a node to represent where the original
// content was first placed, which is useful later on
// DOM WRITE!!
elm['s-sc'] = scopeId;
elm.classList.add(scopeId + '-h');
}
endAttachStyles();
};
const getScopeId = (cmp, mode) => 'sc-' + (cmp.$tagName$);
/**
* Production setAccessor() function based on Preact by
* Jason Miller (@developit)
* Licensed under the MIT License
* https://github.com/developit/preact/blob/master/LICENSE
*
* Modified for Stencil's compiler and vdom
*/
/**
* When running a VDom render set properties present on a VDom node onto the
* corresponding HTML element.
*
* Note that this function has special functionality for the `class`,
* `style`, `key`, and `ref` attributes, as well as event handlers (like
* `onClick`, etc). All others are just passed through as-is.
*
* @param elm the HTMLElement onto which attributes should be set
* @param memberName the name of the attribute to set
* @param oldValue the old value for the attribute
* @param newValue the new value for the attribute
* @param isSvg whether we're in an svg context or not
* @param flags bitflags for Vdom variables
*/
const setAccessor = (elm, memberName, oldValue, newValue, isSvg, flags) => {
if (oldValue !== newValue) {
let isProp = isMemberInElement(elm, memberName);
let ln = memberName.toLowerCase();
if (memberName === 'class') {
const classList = elm.classList;
const oldClasses = parseClassList(oldValue);
const newClasses = parseClassList(newValue);
classList.remove(...oldClasses.filter((c) => c && !newClasses.includes(c)));
classList.add(...newClasses.filter((c) => c && !oldClasses.includes(c)));
}
else if (memberName === 'style') {
// update style attribute, css properties and values
{
for (const prop in oldValue) {
if (!newValue || newValue[prop] == null) {
if (prop.includes('-')) {
elm.style.removeProperty(prop);
}
else {
elm.style[prop] = '';
}
}
}
}
for (const prop in newValue) {
if (!oldValue || newValue[prop] !== oldValue[prop]) {
if (prop.includes('-')) {
elm.style.setProperty(prop, newValue[prop]);
}
else {
elm.style[prop] = newValue[prop];
}
}
}
}
else if (memberName === 'key')
;
else if (memberName === 'ref') {
// minifier will clean this up
if (newValue) {
newValue(elm);
}
}
else if ((!isProp ) &&
memberName[0] === 'o' &&
memberName[1] === 'n') {
// Event Handlers
// so if the member name starts with "on" and the 3rd characters is
// a capital letter, and it's not already a member on the element,
// then we're assuming it's an event listener
if (memberName[2] === '-') {
// on- prefixed events
// allows to be explicit about the dom event to listen without any magic
// under the hood:
// <my-cmp on-click> // listens for "click"
// <my-cmp on-Click> // listens for "Click"
// <my-cmp on-ionChange> // listens for "ionChange"
// <my-cmp on-EVENTS> // listens for "EVENTS"
memberName = memberName.slice(3);
}
else if (isMemberInElement(win, ln)) {
// standard event
// the JSX attribute could have been "onMouseOver" and the
// member name "onmouseover" is on the window's prototype
// so let's add the listener "mouseover", which is all lowercased
memberName = ln.slice(2);
}
else {
// custom event
// the JSX attribute could have been "onMyCustomEvent"
// so let's trim off the "on" prefix and lowercase the first character
// and add the listener "myCustomEvent"
// except for the first character, we keep the event name case
memberName = ln[2] + memberName.slice(3);
}
if (oldValue) {
plt.rel(elm, memberName, oldValue, false);
}
if (newValue) {
plt.ael(elm, memberName, newValue, false);
}
}
else {
// Set property if it exists and it's not a SVG
const isComplex = isComplexType(newValue);
if ((isProp || (isComplex && newValue !== null)) && !isSvg) {
try {
if (!elm.tagName.includes('-')) {
const n = newValue == null ? '' : newValue;
// Workaround for Safari, moving the <input> caret when re-assigning the same valued
if (memberName === 'list') {
isProp = false;
}
else if (oldValue == null || elm[memberName] != n) {
elm[memberName] = n;
}
}
else {
elm[memberName] = newValue;
}
}
catch (e) { }
}
/**
* Need to manually update attribute if:
* - memberName is not an attribute
* - if we are rendering the host element in order to reflect attribute
* - if it's a SVG, since properties might not work in <svg>
* - if the newValue is null/undefined or 'false'.
*/
let xlink = false;
{
if (ln !== (ln = ln.replace(/^xlink\:?/, ''))) {
memberName = ln;
xlink = true;
}
}
if (newValue == null || newValue === false) {
if (newValue !== false || elm.getAttribute(memberName) === '') {
if (xlink) {
elm.removeAttributeNS(XLINK_NS, memberName);
}
else {
elm.removeAttribute(memberName);
}
}
}
else if ((!isProp || flags & 4 /* VNODE_FLAGS.isHost */ || isSvg) && !isComplex) {
newValue = newValue === true ? '' : newValue;
if (xlink) {
elm.setAttributeNS(XLINK_NS, memberName, newValue);
}
else {
elm.setAttribute(memberName, newValue);
}
}
}
}
};
const parseClassListRegex = /\s/;
const parseClassList = (value) => (!value ? [] : value.split(parseClassListRegex));
const updateElement = (oldVnode, newVnode, isSvgMode, memberName) => {
// if the element passed in is a shadow root, which is a document fragment
// then we want to be adding attrs/props to the shadow root's "host" element
// if it's not a shadow root, then we add attrs/props to the same element
const elm = newVnode.$elm$.nodeType === 11 /* NODE_TYPE.DocumentFragment */ && newVnode.$elm$.host
? newVnode.$elm$.host
: newVnode.$elm$;
const oldVnodeAttrs = (oldVnode && oldVnode.$attrs$) || EMPTY_OBJ;
const newVnodeAttrs = newVnode.$attrs$ || EMPTY_OBJ;
{
// remove attributes no longer present on the vnode by setting them to undefined
for (memberName in oldVnodeAttrs) {
if (!(memberName in newVnodeAttrs)) {
setAccessor(elm, memberName, oldVnodeAttrs[memberName], undefined, isSvgMode, newVnode.$flags$);
}
}
}
// add new & update changed attributes
for (memberName in newVnodeAttrs) {
setAccessor(elm, memberName, oldVnodeAttrs[memberName], newVnodeAttrs[memberName], isSvgMode, newVnode.$flags$);
}
};
/**
* Create a DOM Node corresponding to one of the children of a given VNode.
*
* @param oldParentVNode the parent VNode from the previous render
* @param newParentVNode the parent VNode from the current render
* @param childIndex the index of the VNode, in the _new_ parent node's
* children, for which we will create a new DOM node
* @param parentElm the parent DOM node which our new node will be a child of
* @returns the newly created node
*/
const createElm = (oldParentVNode, newParentVNode, childIndex, parentElm) => {
// tslint:disable-next-line: prefer-const
const newVNode = newParentVNode.$children$[childIndex];
let i = 0;
let elm;
let childNode;
let oldVNode;
if (!useNativeShadowDom) {
// remember for later we need to check to relocate nodes
checkSlotRelocate = true;
if (newVNode.$tag$ === 'slot') {
if (scopeId) {
// scoped css needs to add its scoped id to the parent element
parentElm.classList.add(scopeId + '-s');
}
newVNode.$flags$ |= newVNode.$children$
? // slot element has fallback content
2 /* VNODE_FLAGS.isSlotFallback */
: // slot element does not have fallback content
1 /* VNODE_FLAGS.isSlotReference */;
}
}
if (newVNode.$text$ !== null) {
// create text node
elm = newVNode.$elm$ = doc.createTextNode(newVNode.$text$);
}
else if (newVNode.$flags$ & 1 /* VNODE_FLAGS.isSlotReference */) {
// create a slot reference node
elm = newVNode.$elm$ =
doc.createTextNode('');
}
else {
if (!isSvgMode) {
isSvgMode = newVNode.$tag$ === 'svg';
}
// create element
elm = newVNode.$elm$ = (doc.createElementNS(isSvgMode ? SVG_NS : HTML_NS, newVNode.$flags$ & 2 /* VNODE_FLAGS.isSlotFallback */
? 'slot-fb'
: newVNode.$tag$)
);
if (isSvgMode && newVNode.$tag$ === 'foreignObject') {
isSvgMode = false;
}
// add css classes, attrs, props, listeners, etc.
{
updateElement(null, newVNode, isSvgMode);
}
if (isDef(scopeId) && elm['s-si'] !== scopeId) {
// if there is a scopeId and this is the initial render
// then let's add the scopeId as a css class
elm.classList.add((elm['s-si'] = scopeId));
}
if (newVNode.$children$) {
for (i = 0; i < newVNode.$children$.length; ++i) {
// create the node
childNode = createElm(oldParentVNode, newVNode, i, elm);
// return node could have been null
if (childNode) {
// append our new node
elm.appendChild(childNode);
}
}
}
{
if (newVNode.$tag$ === 'svg') {
// Only reset the SVG context when we're exiting <svg> element
isSvgMode = false;
}
else if (elm.tagName === 'foreignObject') {
// Reenter SVG context when we're exiting <foreignObject> element
isSvgMode = true;
}
}
}
{
elm['s-hn'] = hostTagName;
if (newVNode.$flags$ & (2 /* VNODE_FLAGS.isSlotFallback */ | 1 /* VNODE_FLAGS.isSlotReference */)) {
// remember the content reference comment
elm['s-sr'] = true;
// remember the content reference comment
elm['s-cr'] = contentRef;
// remember the slot name, or empty string for default slot
elm['s-sn'] = newVNode.$name$ || '';
// check if we've got an old vnode for this slot
oldVNode = oldParentVNode && oldParentVNode.$children$ && oldParentVNode.$children$[childIndex];
if (oldVNode && oldVNode.$tag$ === newVNode.$tag$ && oldParentVNode.$elm$) {
// we've got an old slot vnode and the wrapper is being replaced
// so let's move the old slot content back to it's original location
putBackInOriginalLocation(oldParentVNode.$elm$, false);
}
}
}
return elm;
};
const putBackInOriginalLocation = (parentElm, recursive) => {
plt.$flags$ |= 1 /* PLATFORM_FLAGS.isTmpDisconnected */;
const oldSlotChildNodes = parentElm.childNodes;
for (let i = oldSlotChildNodes.length - 1; i >= 0; i--) {
const childNode = oldSlotChildNodes[i];
if (childNode['s-hn'] !== hostTagName && childNode['s-ol']) {
// // this child node in the old element is from another component
// // remove this node from the old slot's parent
// childNode.remove();
// and relocate it back to it's original location
parentReferenceNode(childNode).insertBefore(childNode, referenceNode(childNode));
// remove the old original location comment entirely
// later on the patch function will know what to do
// and move this to the correct spot if need be
childNode['s-ol'].remove();
childNode['s-ol'] = undefined;
checkSlotRelocate = true;
}
if (recursive) {
putBackInOriginalLocation(childNode, recursive);
}
}
plt.$flags$ &= ~1 /* PLATFORM_FLAGS.isTmpDisconnected */;
};
/**
* Create DOM nodes corresponding to a list of {@link d.Vnode} objects and
* add them to the DOM in the appropriate place.
*
* @param parentElm the DOM node which should be used as a parent for the new
* DOM nodes
* @param before a child of the `parentElm` which the new children should be
* inserted before (optional)
* @param parentVNode the parent virtual DOM node
* @param vnodes the new child virtual DOM nodes to produce DOM nodes for
* @param startIdx the index in the child virtual DOM nodes at which to start
* creating DOM nodes (inclusive)
* @param endIdx the index in the child virtual DOM nodes at which to stop
* creating DOM nodes (inclusive)
*/
const addVnodes = (parentElm, before, parentVNode, vnodes, startIdx, endIdx) => {
let containerElm = ((parentElm['s-cr'] && parentElm['s-cr'].parentNode) || parentElm);
let childNode;
if (containerElm.shadowRoot && containerElm.tagName === hostTagName) {
containerElm = containerElm.shadowRoot;
}
for (; startIdx <= endIdx; ++startIdx) {
if (vnodes[startIdx]) {
childNode = createElm(null, parentVNode, startIdx, parentElm);
if (childNode) {
vnodes[startIdx].$elm$ = childNode;
containerElm.insertBefore(childNode, referenceNode(before) );
}
}
}
};
/**
* Remove the DOM elements corresponding to a list of {@link d.VNode} objects.
* This can be used to, for instance, clean up after a list of children which
* should no longer be shown.
*
* This function also handles some of Stencil's slot relocation logic.
*
* @param vnodes a list of virtual DOM nodes to remove
* @param startIdx the index at which to start removing nodes (inclusive)
* @param endIdx the index at which to stop removing nodes (inclusive)
*/
const removeVnodes = (vnodes, startIdx, endIdx) => {
for (let index = startIdx; index <= endIdx; ++index) {
const vnode = vnodes[index];
if (vnode) {
const elm = vnode.$elm$;
nullifyVNodeRefs(vnode);
if (elm) {
{
// we're removing this element
// so it's possible we need to show slot fallback content now
checkSlotFallbackVisibility = true;
if (elm['s-ol']) {
// remove the original location comment
elm['s-ol'].remove();
}
else {
// it's possible that child nodes of the node
// that's being removed are slot nodes
putBackInOriginalLocation(elm, true);
}
}
// remove the vnode's element from the dom
elm.remove();
}
}
}
};
/**
* Reconcile the children of a new VNode with the children of an old VNode by
* traversing the two collections of children, identifying nodes that are
* conserved or changed, calling out to `patch` to make any necessary
* updates to the DOM, and rearranging DOM nodes as needed.
*
* The algorithm for reconciling children works by analyzing two 'windows' onto
* the two arrays of children (`oldCh` and `newCh`). We keep track of the
* 'windows' by storing start and end indices and references to the
* corresponding array entries. Initially the two 'windows' are basically equal
* to the entire array, but we progressively narrow the windows until there are
* no children left to update by doing the following:
*
* 1. Skip any `null` entries at the beginning or end of the two arrays, so
* that if we have an initial array like the following we'll end up dealing
* only with a window bounded by the highlighted elements:
*
* [null, null, VNode1 , ... , VNode2, null, null]
* ^^^^^^ ^^^^^^
*
* 2. Check to see if the elements at the head and tail positions are equal
* across the windows. This will basically detect elements which haven't
* been added, removed, or changed position, i.e. if you had the following
* VNode elements (represented as HTML):
*
* oldVNode: `<div><p><span>HEY</span></p></div>`
* newVNode: `<div><p><span>THERE</span></p></div>`
*
* Then when comparing the children of the `<div>` tag we check the equality
* of the VNodes corresponding to the `<p>` tags and, since they are the
* same tag in the same position, we'd be able to avoid completely
* re-rendering the subtree under them with a new DOM element and would just
* call out to `patch` to handle reconciling their children and so on.
*
* 3. Check, for both windows, to see if the element at the beginning of the
* window corresponds to the element at the end of the other window. This is
* a heuristic which will let us identify _some_ situations in which
* elements have changed position, for instance it _should_ detect that the
* children nodes themselves have not changed but merely moved in the
* following example:
*
* oldVNode: `<div><element-one /><element-two /></div>`
* newVNode: `<div><element-two /><element-one /></div>`
*
* If we find cases like this then we also need to move the concrete DOM
* elements corresponding to the moved children to write the re-order to the
* DOM.
*
* 4. Finally, if VNodes have the `key` attribute set on them we check for any
* nodes in the old children which have the same key as the first element in
* our window on the new children. If we find such a node we handle calling
* out to `patch`, moving relevant DOM nodes, and so on, in accordance with
* what we find.
*
* Finally, once we've narrowed our 'windows' to the point that either of them
* collapse (i.e. they have length 0) we then handle any remaining VNode
* insertion or deletion that needs to happen to get a DOM state that correctly
* reflects the new child VNodes. If, for instance, after our window on the old
* children has collapsed we still have more nodes on the new children that
* we haven't dealt with yet then we need to add them, or if the new children
* collapse but we still have unhandled _old_ children then we need to make
* sure the corresponding DOM nodes are removed.
*
* @param parentElm the node into which the parent VNode is rendered
* @param oldCh the old children of the parent node
* @param newVNode the new VNode which will replace the parent
* @param newCh the new children of the parent node
*/
const updateChildren = (parentElm, oldCh, newVNode, newCh) => {
let oldStartIdx = 0;
let newStartIdx = 0;
let idxInOld = 0;
let i = 0;
let oldEndIdx = oldCh.length - 1;
let oldStartVnode = oldCh[0];
let oldEndVnode = oldCh[oldEndIdx];
let newEndIdx = newCh.length - 1;
let newStartVnode = newCh[0];
let newEndVnode = newCh[newEndIdx];
let node;
let elmToMove;
while (oldStartIdx <= oldEndIdx && newStartIdx <= newEndIdx) {
if (oldStartVnode == null) {
// VNode might have been moved left
oldStartVnode = oldCh[++oldStartIdx];
}
else if (oldEndVnode == null) {
oldEndVnode = oldCh[--oldEndIdx];
}
else if (newStartVnode == null) {
newStartVnode = newCh[++newStartIdx];
}
else if (newEndVnode == null) {
newEndVnode = newCh[--newEndIdx];
}
else if (isSameVnode(oldStartVnode, newStartVnode)) {
// if the start nodes are the same then we should patch the new VNode
// onto the old one, and increment our `newStartIdx` and `oldStartIdx`
// indices to reflect that. We don't need to move any DOM Nodes around
// since things are matched up in order.
patch(oldStartVnode, newStartVnode);
oldStartVnode = oldCh[++oldStartIdx];
newStartVnode = newCh[++newStartIdx];
}
else if (isSameVnode(oldEndVnode, newEndVnode)) {
// likewise, if the end nodes are the same we patch new onto old and
// decrement our end indices, and also likewise in this case we don't
// need to move any DOM Nodes.
patch(oldEndVnode, newEndVnode);
oldEndVnode = oldCh[--oldEndIdx];
newEndVnode = newCh[--newEndIdx];
}
else if (isSameVnode(oldStartVnode, newEndVnode)) {
// case: "Vnode moved right"
//
// We've found that the last node in our window on the new children is
// the same VNode as the _first_ node in our window on the old children
// we're dealing with now. Visually, this is the layout of these two
// nodes:
//
// newCh: [..., newStartVnode , ... , newEndVnode , ...]
// ^^^^^^^^^^^
// oldCh: [..., oldStartVnode , ... , oldEndVnode , ...]
// ^^^^^^^^^^^^^
//
// In this situation we need to patch `newEndVnode` onto `oldStartVnode`
// and move the DOM element for `oldStartVnode`.
if ((oldStartVnode.$tag$ === 'slot' || newEndVnode.$tag$ === 'slot')) {
putBackInOriginalLocation(oldStartVnode.$elm$.parentNode, false);
}
patch(oldStartVnode, newEndVnode);
// We need to move the element for `oldStartVnode` into a position which
// will be appropriate for `newEndVnode`. For this we can use
// `.insertBefore` and `oldEndVnode.$elm$.nextSibling`. If there is a
// sibling for `oldEndVnode.$elm$` then we want to move the DOM node for
// `oldStartVnode` between `oldEndVnode` and it's sibling, like so:
//
// <old-start-node />
// <some-intervening-node />
// <old-end-node />
// <!-- -> <-- `oldStartVnode.$elm$` should be inserted here
// <next-sibling />
//
// If instead `oldEndVnode.$elm$` has no sibling then we just want to put
// the node for `oldStartVnode` at the end of the children of
// `parentElm`. Luckily, `Node.nextSibling` will return `null` if there
// aren't any siblings, and passing `null` to `Node.insertBefore` will
// append it to the children of the parent element.
parentElm.insertBefore(oldStartVnode.$elm$, oldEndVnode.$elm$.nextSibling);
oldStartVnode = oldCh[++oldStartIdx];
newEndVnode = newCh[--newEndIdx];
}
else if (isSameVnode(oldEndVnode, newStartVnode)) {
// case: "Vnode moved left"
//
// We've found that the first node in our window on the new children is
// the same VNode as the _last_ node in our window on the old children.
// Visually, this is the layout of these two nodes:
//
// newCh: [..., newStartVnode , ... , newEndVnode , ...]
// ^^^^^^^^^^^^^
// oldCh: [..., oldStartVnode , ... , oldEndVnode , ...]
// ^^^^^^^^^^^
//
// In this situation we need to patch `newStartVnode` onto `oldEndVnode`
// (which will handle updating any changed attributes, reconciling their
// children etc) but we also need to move the DOM node to which
// `oldEndVnode` corresponds.
if ((oldStartVnode.$tag$ === 'slot' || newEndVnode.$tag$ === 'slot')) {
putBackInOriginalLocation(oldEndVnode.$elm$.parentNode, false);
}
patch(oldEndVnode, newStartVnode);
// We've already checked above if `oldStartVnode` and `newStartVnode` are
// the same node, so since we're here we know that they are not. Thus we
// can move the element for `oldEndVnode` _before_ the element for
// `oldStartVnode`, leaving `oldStartVnode` to be reconciled in the
// future.
parentElm.insertBefore(oldEndVnode.$elm$, oldStartVnode.$elm$);
oldEndVnode = oldCh[--oldEndIdx];
newStartVnode = newCh[++newStartIdx];
}
else {
// Here we do some checks to match up old and new nodes based on the
// `$key$` attribute, which is set by putting a `key="my-key"` attribute
// in the JSX for a DOM element in the implementation of a Stencil
// component.
//
// First we check to see if there are any nodes in the array of old
// children which have the same key as the first node in the new
// children.
idxInOld = -1;
{
for (i = oldStartIdx; i <= oldEndIdx; ++i) {
if (oldCh[i] && oldCh[i].$key$ !== null && oldCh[i].$key$ === newStartVnode.$key$) {
idxInOld = i;
break;
}
}
}
if (idxInOld >= 0) {
// We found a node in the old children which matches up with the first
// node in the new children! So let's deal with that
elmToMove = oldCh[idxInOld];
if (elmToMove.$tag$ !== newStartVnode.$tag$) {
// the tag doesn't match so we'll need a new DOM element
node = createElm(oldCh && oldCh[newStartIdx], newVNode, idxInOld, parentElm);
}
else {
patch(elmToMove, newStartVnode);
// invalidate the matching old node so that we won't try to update it
// again later on
oldCh[idxInOld] = undefined;
node = elmToMove.$elm$;
}
newStartVnode = newCh[++newStartIdx];
}
else {
// We either didn't find an element in the old children that matches
// the key of the first new child OR the build is not using `key`
// attributes at all. In either case we need to create a new element
// for the new node.
node = createElm(oldCh && oldCh[newStartIdx], newVNode, newStartIdx, parentElm);
newStartVnode = newCh[++newStartIdx];
}
if (node) {
// if we created a new node then handle inserting it to the DOM
{
parentReferenceNode(oldStartVnode.$elm$).insertBefore(node, referenceNode(oldStartVnode.$elm$));
}
}
}
}
if (oldStartIdx > oldEndIdx) {
// we have some more new nodes to add which don't match up with old nodes
addVnodes(parentElm, newCh[newEndIdx + 1] == null ? null : newCh[newEndIdx + 1].$elm$, newVNode, newCh, newStartIdx, newEndIdx);
}
else if (newStartIdx > newEndIdx) {
// there are nodes in the `oldCh` array which no longer correspond to nodes
// in the new array, so lets remove them (which entails cleaning up the
// relevant DOM nodes)
removeVnodes(oldCh, oldStartIdx, oldEndIdx);
}
};
/**
* Compare two VNodes to determine if they are the same
*
* **NB**: This function is an equality _heuristic_ based on the available
* information set on the two VNodes and can be misleading under certain
* circumstances. In particular, if the two nodes do not have `key` attrs
* (available under `$key$` on VNodes) then the function falls back on merely
* checking that they have the same tag.
*
* So, in other words, if `key` attrs are not set on VNodes which may be
* changing order within a `children` array or something along those lines then
* we could obtain a false negative and then have to do needless re-rendering
* (i.e. we'd say two VNodes aren't equal when in fact they should be).
*
* @param leftVNode the first VNode to check
* @param rightVNode the second VNode to check
* @returns whether they're equal or not
*/
const isSameVnode = (leftVNode, rightVNode) => {
// compare if two vnode to see if they're "technically" the same
// need to have the same element tag, and same key to be the same
if (leftVNode.$tag$ === rightVNode.$tag$) {
if (leftVNode.$tag$ === 'slot') {
return leftVNode.$name$ === rightVNode.$name$;
}
// this will be set if components in the build have `key` attrs set on them
{
return leftVNode.$key$ === rightVNode.$key$;
}
}
return false;
};
const referenceNode = (node) => {
// this node was relocated to a new location in the dom
// because of some other component's slot
// but we still have an html comment in place of where
// it's original location was according to it's original vdom
return (node && node['s-ol']) || node;
};
const parentReferenceNode = (node) => (node['s-ol'] ? node['s-ol'] : node).parentNode;
/**
* Handle reconciling an outdated VNode with a new one which corresponds to
* it. This function handles flushing updates to the DOM and reconciling the
* children of the two nodes (if any).
*
* @param oldVNode an old VNode whose DOM element and children we want to update
* @param newVNode a new VNode representing an updated version of the old one
*/
const patch = (oldVNode, newVNode) => {
const elm = (newVNode.$elm$ = oldVNode.$elm$);
const oldChildren = oldVNode.$children$;
const newChildren = newVNode.$children$;
const tag = newVNode.$tag$;
const text = newVNode.$text$;
let defaultHolder;
if (text === null) {
{
// test if we're rendering an svg element, or still rendering nodes inside of one
// only add this to the when the compiler sees we're using an svg somewhere
isSvgMode = tag === 'svg' ? true : tag === 'foreignObject' ? false : isSvgMode;
}
{
if (tag === 'slot')
;
else {
// either this is the first render of an element OR it's an update
// AND we already know it's possible it could have changed
// this updates the element's css classes, attrs, props, listeners, etc.
updateElement(oldVNode, newVNode, isSvgMode);
}
}
if (oldChildren !== null && newChildren !== null) {
// looks like there's child vnodes for both the old and new vnodes
// so we need to call `updateChildren` to reconcile them
updateChildren(elm, oldChildren, newVNode, newChildren);
}
else if (newChildren !== null) {
// no old child vnodes, but there are new child vnodes to add
if (oldVNode.$text$ !== null) {
// the old vnode was text, so be sure to clear it out
elm.textContent = '';
}
// add the new vnode children
addVnodes(elm, null, newVNode, newChildren, 0, newChildren.length - 1);
}
else if (oldChildren !== null) {
// no new child vnodes, but there are old child vnodes to remove
removeVnodes(oldChildren, 0, oldChildren.length - 1);
}
if (isSvgMode && tag === 'svg') {
isSvgMode = false;
}
}
else if ((defaultHolder = elm['s-cr'])) {
// this element has slotted content
defaultHolder.parentNode.textContent = text;
}
else if (oldVNode.$text$ !== text) {
// update the text content for the text only vnode
// and also only if the text is different than before
elm.data = text;
}
};
/**
* Adjust the `.hidden` property as-needed on any nodes in a DOM subtree which
* are slot fallbacks nodes.
*
* A slot fallback node should be visible by default. Then, it should be
* conditionally hidden if:
*
* - it has a sibling with a `slot` property set to its slot name or if
* - it is a default fallback slot node, in which case we hide if it has any
* content
*
* @param elm the element of interest
*/
const updateFallbackSlotVisibility = (elm) => {
const childNodes = elm.childNodes;
for (const childNode of childNodes) {
if (childNode.nodeType === 1 /* NODE_TYPE.ElementNode */) {
if (childNode['s-sr']) {
// this is a slot fallback node
// get the slot name for this slot reference node
const slotName = childNode['s-sn'];
// by default always show a fallback slot node
// then hide it if there are other slots in the light dom
childNode.hidden = false;
// we need to check all of its sibling nodes in order to see if
// `childNode` should be hidden
for (const siblingNode of childNodes) {
if (siblingNode['s-hn'] !== childNode['s-hn'] || slotName !== '') {
// this sibling node is from a different component OR is a named
// fallback slot node
if (siblingNode.nodeType === 1 /* NODE_TYPE.ElementNode */ && slotName === siblingNode.getAttribute('slot')) {
childNode.hidden = true;
break;
}
}
else {
// this is a default fallback slot node
// any element or text node (with content)
// should hide the default fallback slot node
if (siblingNode.nodeType === 1 /* NODE_TYPE.ElementNode */ ||
(siblingNode.nodeType === 3 /* NODE_TYPE.TextNode */ && siblingNode.textContent.trim() !== '')) {
childNode.hidden = true;
break;
}
}
}
}
// keep drilling down
updateFallbackSlotVisibility(childNode);
}
}
};
/**
* Component-global information about nodes which are either currently being
* relocated or will be shortly.
*/
const relocateNodes = [];
/**
* Mark the contents of a slot for relocation via adding references to them to
* the {@link relocateNodes} data structure. The actual work of relocating them
* will then be handled in {@link renderVdom}.
*
* @param elm a render node whose child nodes need to be relocated
*/
const markSlotContentForRelocation = (elm) => {
// tslint:disable-next-line: prefer-const
let node;
let hostContentNodes;
let j;
for (const childNode of elm.childNodes) {
// we need to find child nodes which are slot references so we can then try
// to match them up with nodes that need to be relocated
if (childNode['s-sr'] && (node = childNode['s-cr']) && node.parentNode) {
// first get the content reference comment node ('s-cr'), then we get
// its parent, which is where all the host content is now
hostContentNodes = node.parentNode.childNodes;
const slotName = childNode['s-sn'];
// iterate through all the nodes under the location where the host was
// originally rendered
for (j = hostContentNodes.length - 1; j >= 0; j--) {
node = hostContentNodes[j];
// check that the node is not a content reference node or a node
// reference and then check that the host name does not match that of
// childNode
if (!node['s-cn'] && !node['s-nr'] && node['s-hn'] !== childNode['s-hn']) {
// if `node` is located in the slot that `childNode` refers to (via the
// `'s-sn'` property) then we need to relocate it from it's current spot
// (under the host element parent) to the right slot location
if (isNodeLocatedInSlot(node, slotName)) {
// it's possible we've already decided to relocate this node
let relocateNodeData = relocateNodes.find((r) => r.$nodeToRelocate$ === node);
// made some changes to slots
// let's make sure we also double check
// fallbacks are correctly hidden or shown
checkSlotFallbackVisibility = true;
// ensure that the slot-name attr is correct
node['s-sn'] = node['s-sn'] || slotName;
if (relocateNodeData) {
// we marked this node for relocation previously but didn't find
// out the slot reference node to which it needs to be relocated
// so write it down now!
relocateNodeData.$slotRefNode$ = childNode;
}
else {
// add to our list of nodes to relocate
relocateNodes.push({
$slotRefNode$: childNode,
$nodeToRelocate$: node,
});
}
if (node['s-sr']) {
relocateNodes.map((relocateNode) => {
if (isNodeLocatedInSlot(relocateNode.$nodeToRelocate$, node['s-sn'])) {
relocateNodeData = relocateNodes.find((r) => r.$nodeToRelocate$ === node);
if (relocateNodeData && !relocateNode.$slotRefNode$) {
relocateNode.$slotRefNode$ = relocateNodeData.$slotRefNode$;
}
}
});
}
}
else if (!relocateNodes.some((r) => r.$nodeToRelocate$ === node)) {
// the node is not found within the slot (`childNode`) that we're
// currently looking at, so we stick it into `relocateNodes` to
// handle later. If we never find a home for this element then
// we'll need to hide it
relocateNodes.push({
$nodeToRelocate$: node,
});
}
}
}
}
// if we're dealing with any type of element (capable of itself being a
// slot reference or containing one) then we recur
if (childNode.nodeType === 1 /* NODE_TYPE.ElementNode */) {
markSlotContentForRelocation(childNode);
}
}
};
/**
* Check whether a node is located in a given named slot.
*
* @param nodeToRelocate the node of interest
* @param slotName the slot name to check
* @returns whether the node is located in the slot or not
*/
const isNodeLocatedInSlot = (nodeToRelocate, slotName) => {
if (nodeToRelocate.nodeType === 1 /* NODE_TYPE.ElementNode */) {
if (nodeToRelocate.getAttribute('slot') === null && slotName === '') {
// if the node doesn't have a slot attribute, and the slot we're checking
// is not a named slot, then we assume the node should be within the slot
return true;
}
if (nodeToRelocate.getAttribute('slot') === slotName) {
return true;
}
return false;
}
if (nodeToRelocate['s-sn'] === slotName) {
return true;
}
return slotName === '';
};
/**
* 'Nullify' any VDom `ref` callbacks on a VDom node or its children by calling
* them with `null`. This signals that the DOM element corresponding to the VDom
* node has been removed from the DOM.
*
* @param vNode a virtual DOM node
*/
const nullifyVNodeRefs = (vNode) => {
{
vNode.$attrs$ && vNode.$attrs$.ref && vNode.$attrs$.ref(null);
vNode.$children$ && vNode.$children$.map(nullifyVNodeRefs);
}
};
/**
* The main entry point for Stencil's virtual DOM-based rendering engine
*
* Given a {@link d.HostRef} container and some virtual DOM nodes, this
* function will handle creating a virtual DOM tree with a single root, patching
* the current virtual DOM tree onto an old one (if any), dealing with slot
* relocation, and reflecting attributes.
*
* @param hostRef data needed to root and render the virtual DOM tree, such as
* the DOM node into which it should be rendered.
* @param renderFnResults the virtual DOM nodes to be rendered
* @param isInitialLoad whether or not this is the first call after page load
*/
const renderVdom = (hostRef, renderFnResults, isInitialLoad = false) => {
const hostElm = hostRef.$hostElement$;
const cmpMeta = hostRef.$cmpMeta$;
const oldVNode = hostRef.$vnode$ || newVNode(null, null);
// if `renderFnResults` is a Host node then we can use it directly. If not,
// we need to call `h` again to wrap the children of our component in a
// 'dummy' Host node (well, an empty vnode) since `renderVdom` assumes
// implicitly that the top-level vdom node is 1) an only child and 2)
// contains attrs that need to be set on the host element.
const rootVnode = isHost(renderFnResults) ? renderFnResults : h(null, null, renderFnResults);
hostTagName = hostElm.tagName;
if (cmpMeta.$attrsToReflect$) {
rootVnode.$attrs$ = rootVnode.$attrs$ || {};
cmpMeta.$attrsToReflect$.map(([propName, attribute]) => (rootVnode.$attrs$[attribute] = hostElm[propName]));
}
// On the first render and *only* on the first render we want to check for
// any attributes set on the host element which are also set on the vdom
// node. If we find them, we override the value on the VDom node attrs with
// the value from the host element, which allows developers building apps
// with Stencil components to override e.g. the `role` attribute on a
// component even if it's already set on the `Host`.
if (isInitialLoad && rootVnode.$attrs$) {
for (const key of Object.keys(rootVnode.$attrs$)) {
// We have a special implementation in `setAccessor` for `style` and
// `class` which reconciles values coming from the VDom with values
// already present on the DOM element, so we don't want to override those
// attributes on the VDom tree with values from the host element if they
// are present.
//
// Likewise, `ref` and `key` are special internal values for the Stencil
// runtime and we don't want to override those either.
if (hostElm.hasAttribute(key) && !['key', 'ref', 'style', 'class'].includes(key)) {
rootVnode.$attrs$[key] = hostElm[key];
}
}
}
rootVnode.$tag$ = null;
rootVnode.$flags$ |= 4 /* VNODE_FLAGS.isHost */;
hostRef.$vnode$ = rootVnode;
rootVnode.$elm$ = oldVNode.$elm$ = (hostElm.shadowRoot || hostElm );
{
scopeId = hostElm['s-sc'];
}
{
contentRef = hostElm['s-cr'];
useNativeShadowDom = (cmpMeta.$flags$ & 1 /* CMP_FLAGS.shadowDomEncapsulation */) !== 0;
// always reset
checkSlotFallbackVisibility = false;
}
// synchronous patch
patch(oldVNode, rootVnode);
{
// while we're moving nodes around existing nodes, temporarily disable
// the disconnectCallback from working
plt.$flags$ |= 1 /* PLATFORM_FLAGS.isTmpDisconnected */;
if (checkSlotRelocate) {
markSlotContentForRelocation(rootVnode.$elm$);
let relocateData;
let nodeToRelocate;
let orgLocationNode;
let parentNodeRef;
let insertBeforeNode;
let refNode;
let i = 0;
for (; i < relocateNodes.length; i++) {
relocateData = relocateNodes[i];
nodeToRelocate = relocateData.$nodeToRelocate$;
if (!nodeToRelocate['s-ol']) {
// add a reference node marking this node's original location
// keep a reference to this node for later lookups
orgLocationNode =
doc.createTextNode('');
orgLocationNode['s-nr'] = nodeToRelocate;
nodeToRelocate.parentNode.insertBefore((nodeToRelocate['s-ol'] = orgLocationNode), nodeToRelocate);
}
}
for (i = 0; i < relocateNodes.length; i++) {
relocateData = relocateNodes[i];
nodeToRelocate = relocateData.$nodeToRelocate$;
if (relocateData.$slotRefNode$) {
// by default we're just going to insert it directly
// after the slot reference node
parentNodeRef = relocateData.$slotRefNode$.parentNode;
insertBeforeNode = relocateData.$slotRefNode$.nextSibling;
orgLocationNode = nodeToRelocate['s-ol'];
while ((orgLocationNode = orgLocationNode.previousSibling)) {
refNode = orgLocationNode['s-nr'];
if (refNode && refNode['s-sn'] === nodeToRelocate['s-sn'] && parentNodeRef === refNode.parentNode) {
refNode = refNode.nextSibling;
if (!refNode || !refNode['s-nr']) {
insertBeforeNode = refNode;
break;
}
}
}
if ((!insertBeforeNode && parentNodeRef !== nodeToRelocate.parentNode) ||
nodeToRelocate.nextSibling !== insertBeforeNode) {
// we've checked that it's worth while to relocate
// since that the node to relocate
// has a different next sibling or parent relocated
if (nodeToRelocate !== insertBeforeNode) {
if (!nodeToRelocate['s-hn'] && nodeToRelocate['s-ol']) {
// probably a component in the index.html that doesn't have its hostname set
nodeToRelocate['s-hn'] = nodeToRelocate['s-ol'].parentNode.nodeName;
}
// add it back to the dom but in its new home
parentNodeRef.insertBefore(nodeToRelocate, insertBeforeNode);
}
}
}
else {
// this node doesn't have a slot home to go to, so let's hide it
if (nodeToRelocate.nodeType === 1 /* NODE_TYPE.ElementNode */) {
nodeToRelocate.hidden = true;
}
}
}
}
if (checkSlotFallbackVisibility) {
updateFallbackSlotVisibility(rootVnode.$elm$);
}
// done moving nodes around
// allow the disconnect callback to work again
plt.$flags$ &= ~1 /* PLATFORM_FLAGS.isTmpDisconnected */;
// always reset
relocateNodes.length = 0;
}
};
const attachToAncestor = (hostRef, ancestorComponent) => {
if (ancestorComponent && !hostRef.$onRenderResolve$ && ancestorComponent['s-p']) {
ancestorComponent['s-p'].push(new Promise((r) => (hostRef.$onRenderResolve$ = r)));
}
};
const scheduleUpdate = (hostRef, isInitialLoad) => {
{
hostRef.$flags$ |= 16 /* HOST_FLAGS.isQueuedForUpdate */;
}
if (hostRef.$flags$ & 4 /* HOST_FLAGS.isWaitingForChildren */) {
hostRef.$flags$ |= 512 /* HOST_FLAGS.needsRerender */;
return;
}
attachToAncestor(hostRef, hostRef.$ancestorComponent$);
// there is no ancestor component or the ancestor component
// has already fired off its lifecycle update then
// fire off the initial update
const dispatch = () => dispatchHooks(hostRef, isInitialLoad);
return writeTask(dispatch) ;
};
/**
* Dispatch initial-render and update lifecycle hooks, enqueuing calls to
* component lifecycle methods like `componentWillLoad` as well as
* {@link updateComponent}, which will kick off the virtual DOM re-render.
*
* @param hostRef a reference to a host DOM node
* @param isInitialLoad whether we're on the initial load or not
* @returns an empty Promise which is used to enqueue a series of operations for
* the component
*/
const dispatchHooks = (hostRef, isInitialLoad) => {
const endSchedule = createTime('scheduleUpdate', hostRef.$cmpMeta$.$tagName$);
const instance = hostRef.$lazyInstance$ ;
// We're going to use this variable together with `enqueue` to implement a
// little promise-based queue. We start out with it `undefined`. When we add
// the first function to the queue we'll set this variable to be that
// function's return value. When we attempt to add subsequent values to the
// queue we'll check that value and, if it was a `Promise`, we'll then chain
// the new function off of that `Promise` using `.then()`. This will give our
// queue two nice properties:
//
// 1. If all functions added to the queue are synchronous they'll be called
// synchronously right away.
// 2. If all functions added to the queue are asynchronous they'll all be
// called in order after `dispatchHooks` exits.
let maybePromise;
if (isInitialLoad) {
{
hostRef.$flags$ |= 256 /* HOST_FLAGS.isListenReady */;
if (hostRef.$queuedListeners$) {
hostRef.$queuedListeners$.map(([methodName, event]) => safeCall(instance, methodName, event));
hostRef.$queuedListeners$ = undefined;
}
}
{
// If `componentWillLoad` returns a `Promise` then we want to wait on
// whatever's going on in that `Promise` before we launch into
// rendering the component, doing other lifecycle stuff, etc. So
// in that case we assign the returned promise to the variable we
// declared above to hold a possible 'queueing' Promise
maybePromise = safeCall(instance, 'componentWillLoad');
}
}
else {
{
// Like `componentWillLoad` above, we allow Stencil component
// authors to return a `Promise` from this lifecycle callback, and
// we specify that our runtime will wait for that `Promise` to
// resolve before the component re-renders. So if the method
// returns a `Promise` we need to keep it around!
maybePromise = safeCall(instance, 'componentWillUpdate');
}
}
{
maybePromise = enqueue(maybePromise, () => safeCall(instance, 'componentWillRender'));
}
endSchedule();
return enqueue(maybePromise, () => updateComponent(hostRef, instance, isInitialLoad));
};
/**
* This function uses a Promise to implement a simple first-in, first-out queue
* of functions to be called.
*
* The queue is ordered on the basis of the first argument. If it's
* `undefined`, then nothing is on the queue yet, so the provided function can
* be called synchronously (although note that this function may return a
* `Promise`). The idea is that then the return value of that enqueueing
* operation is kept around, so that if it was a `Promise` then subsequent
* functions can be enqueued by calling this function again with that `Promise`
* as the first argument.
*
* @param maybePromise either a `Promise` which should resolve before the next function is called or an 'empty' sentinel
* @param fn a function to enqueue
* @returns either a `Promise` or the return value of the provided function
*/
const enqueue = (maybePromise, fn) => isPromisey(maybePromise) ? maybePromise.then(fn) : fn();
/**
* Check that a value is a `Promise`. To check, we first see if the value is an
* instance of the `Promise` global. In a few circumstances, in particular if
* the global has been overwritten, this is could be misleading, so we also do
* a little 'duck typing' check to see if the `.then` property of the value is
* defined and a function.
*
* @param maybePromise it might be a promise!
* @returns whether it is or not
*/
const isPromisey = (maybePromise) => maybePromise instanceof Promise ||
(maybePromise && maybePromise.then && typeof maybePromise.then === 'function');
/**
* Update a component given reference to its host elements and so on.
*
* @param hostRef an object containing references to the element's host node,
* VDom nodes, and other metadata
* @param instance a reference to the underlying host element where it will be
* rendered
* @param isInitialLoad whether or not this function is being called as part of
* the first render cycle
*/
const updateComponent = async (hostRef, instance, isInitialLoad) => {
var _a;
const elm = hostRef.$hostElement$;
const endUpdate = createTime('update', hostRef.$cmpMeta$.$tagName$);
const rc = elm['s-rc'];
if (isInitialLoad) {
// DOM WRITE!
attachStyles(hostRef);
}
const endRender = createTime('render', hostRef.$cmpMeta$.$tagName$);
{
callRender(hostRef, instance, elm, isInitialLoad);
}
if (rc) {
// ok, so turns out there are some child host elements
// waiting on this parent element to load
// let's fire off all update callbacks waiting
rc.map((cb) => cb());
elm['s-rc'] = undefined;
}
endRender();
endUpdate();
{
const childrenPromises = (_a = elm['s-p']) !== null && _a !== void 0 ? _a : [];
const postUpdate = () => postUpdateComponent(hostRef);
if (childrenPromises.length === 0) {
postUpdate();
}
else {
Promise.all(childrenPromises).then(postUpdate);
hostRef.$flags$ |= 4 /* HOST_FLAGS.isWaitingForChildren */;
childrenPromises.length = 0;
}
}
};
/**
* Handle making the call to the VDom renderer with the proper context given
* various build variables
*
* @param hostRef an object containing references to the element's host node,
* VDom nodes, and other metadata
* @param instance a reference to the underlying host element where it will be
* rendered
* @param elm the Host element for the component
* @param isInitialLoad whether or not this function is being called as part of
* @returns an empty promise
*/
const callRender = (hostRef, instance, elm, isInitialLoad) => {
try {
/**
* minification optimization: `allRenderFn` is `true` if all components have a `render`
* method, so we can call the method immediately. If not, check before calling it.
*/
instance = instance.render() ;
{
hostRef.$flags$ &= ~16 /* HOST_FLAGS.isQueuedForUpdate */;
}
{
hostRef.$flags$ |= 2 /* HOST_FLAGS.hasRendered */;
}
{
{
// looks like we've got child nodes to render into this host element
// or we need to update the css class/attrs on the host element
// DOM WRITE!
{
renderVdom(hostRef, instance, isInitialLoad);
}
}
}
}
catch (e) {
consoleError(e, hostRef.$hostElement$);
}
return null;
};
const postUpdateComponent = (hostRef) => {
const tagName = hostRef.$cmpMeta$.$tagName$;
const elm = hostRef.$hostElement$;
const endPostUpdate = createTime('postUpdate', tagName);
const instance = hostRef.$lazyInstance$ ;
const ancestorComponent = hostRef.$ancestorComponent$;
{
safeCall(instance, 'componentDidRender');
}
if (!(hostRef.$flags$ & 64 /* HOST_FLAGS.hasLoadedComponent */)) {
hostRef.$flags$ |= 64 /* HOST_FLAGS.hasLoadedComponent */;
{
// DOM WRITE!
addHydratedFlag(elm);
}
{
safeCall(instance, 'componentDidLoad');
}
endPostUpdate();
{
hostRef.$onReadyResolve$(elm);
if (!ancestorComponent) {
appDidLoad();
}
}
}
else {
{
safeCall(instance, 'componentDidUpdate');
}
endPostUpdate();
}
{
hostRef.$onInstanceResolve$(elm);
}
// load events fire from bottom to top
// the deepest elements load first then bubbles up
{
if (hostRef.$onRenderResolve$) {
hostRef.$onRenderResolve$();
hostRef.$onRenderResolve$ = undefined;
}
if (hostRef.$flags$ & 512 /* HOST_FLAGS.needsRerender */) {
nextTick(() => scheduleUpdate(hostRef, false));
}
hostRef.$flags$ &= ~(4 /* HOST_FLAGS.isWaitingForChildren */ | 512 /* HOST_FLAGS.needsRerender */);
}
// ( •_•)
// ( •_•)>⌐■-■
// (⌐■_■)
};
const appDidLoad = (who) => {
// on appload
// we have finish the first big initial render
{
addHydratedFlag(doc.documentElement);
}
nextTick(() => emitEvent(win, 'appload', { detail: { namespace: NAMESPACE } }));
};
/**
* Allows to safely call a method, e.g. `componentDidLoad`, on an instance,
* e.g. custom element node. If a build figures out that e.g. no component
* has a `componentDidLoad` method, the instance method gets removed from the
* output bundle and this function returns `undefined`.
* @param instance any object that may or may not contain methods
* @param method method name
* @param arg single arbitrary argument
* @returns result of method call if it exists, otherwise `undefined`
*/
const safeCall = (instance, method, arg) => {
if (instance && instance[method]) {
try {
return instance[method](arg);
}
catch (e) {
consoleError(e);
}
}
return undefined;
};
const addHydratedFlag = (elm) => elm.classList.add('hydrated')
;
const getValue = (ref, propName) => getHostRef(ref).$instanceValues$.get(propName);
const setValue = (ref, propName, newVal, cmpMeta) => {
// check our new property value against our internal value
const hostRef = getHostRef(ref);
const elm = hostRef.$hostElement$ ;
const oldVal = hostRef.$instanceValues$.get(propName);
const flags = hostRef.$flags$;
const instance = hostRef.$lazyInstance$ ;
newVal = parsePropertyValue(newVal, cmpMeta.$members$[propName][0]);
// explicitly check for NaN on both sides, as `NaN === NaN` is always false
const areBothNaN = Number.isNaN(oldVal) && Number.isNaN(newVal);
const didValueChange = newVal !== oldVal && !areBothNaN;
if ((!(flags & 8 /* HOST_FLAGS.isConstructingInstance */) || oldVal === undefined) && didValueChange) {
// gadzooks! the property's value has changed!!
// set our new value!
hostRef.$instanceValues$.set(propName, newVal);
if (instance) {
// get an array of method names of watch functions to call
if (cmpMeta.$watchers$ && flags & 128 /* HOST_FLAGS.isWatchReady */) {
const watchMethods = cmpMeta.$watchers$[propName];
if (watchMethods) {
// this instance is watching for when this property changed
watchMethods.map((watchMethodName) => {
try {
// fire off each of the watch methods that are watching this property
instance[watchMethodName](newVal, oldVal, propName);
}
catch (e) {
consoleError(e, elm);
}
});
}
}
if ((flags & (2 /* HOST_FLAGS.hasRendered */ | 16 /* HOST_FLAGS.isQueuedForUpdate */)) === 2 /* HOST_FLAGS.hasRendered */) {
// looks like this value actually changed, so we've got work to do!
// but only if we've already rendered, otherwise just chill out
// queue that we need to do an update, but don't worry about queuing
// up millions cuz this function ensures it only runs once
scheduleUpdate(hostRef, false);
}
}
}
};
/**
* Attach a series of runtime constructs to a compiled Stencil component
* constructor, including getters and setters for the `@Prop` and `@State`
* decorators, callbacks for when attributes change, and so on.
*
* @param Cstr the constructor for a component that we need to process
* @param cmpMeta metadata collected previously about the component
* @param flags a number used to store a series of bit flags
* @returns a reference to the same constructor passed in (but now mutated)
*/
const proxyComponent = (Cstr, cmpMeta, flags) => {
var _a;
if (cmpMeta.$members$) {
if (Cstr.watchers) {
cmpMeta.$watchers$ = Cstr.watchers;
}
// It's better to have a const than two Object.entries()
const members = Object.entries(cmpMeta.$members$);
const prototype = Cstr.prototype;
members.map(([memberName, [memberFlags]]) => {
if ((memberFlags & 31 /* MEMBER_FLAGS.Prop */ ||
((flags & 2 /* PROXY_FLAGS.proxyState */) && memberFlags & 32 /* MEMBER_FLAGS.State */))) {
// proxyComponent - prop
Object.defineProperty(prototype, memberName, {
get() {
// proxyComponent, get value
return getValue(this, memberName);
},
set(newValue) {
// proxyComponent, set value
setValue(this, memberName, newValue, cmpMeta);
},
configurable: true,
enumerable: true,
});
}
else if (flags & 1 /* PROXY_FLAGS.isElementConstructor */ &&
memberFlags & 64 /* MEMBER_FLAGS.Method */) {
// proxyComponent - method
Object.defineProperty(prototype, memberName, {
value(...args) {
const ref = getHostRef(this);
return ref.$onInstancePromise$.then(() => ref.$lazyInstance$[memberName](...args));
},
});
}
});
if ((flags & 1 /* PROXY_FLAGS.isElementConstructor */)) {
const attrNameToPropName = new Map();
prototype.attributeChangedCallback = function (attrName, oldValue, newValue) {
plt.jmp(() => {
const propName = attrNameToPropName.get(attrName);
// In a web component lifecycle the attributeChangedCallback runs prior to connectedCallback
// in the case where an attribute was set inline.
// ```html
// <my-component some-attribute="some-value"></my-component>
// ```
//
// There is an edge case where a developer sets the attribute inline on a custom element and then
// programmatically changes it before it has been upgraded as shown below:
//
// ```html
// <!-- this component has _not_ been upgraded yet -->
// <my-component id="test" some-attribute="some-value"></my-component>
// <script>
// // grab non-upgraded component
// el = document.querySelector("#test");
// el.someAttribute = "another-value";
// // upgrade component
// customElements.define('my-component', MyComponent);
// </script>
// ```
// In this case if we do not un-shadow here and use the value of the shadowing property, attributeChangedCallback
// will be called with `newValue = "some-value"` and will set the shadowed property (this.someAttribute = "another-value")
// to the value that was set inline i.e. "some-value" from above example. When
// the connectedCallback attempts to un-shadow it will use "some-value" as the initial value rather than "another-value"
//
// The case where the attribute was NOT set inline but was not set programmatically shall be handled/un-shadowed
// by connectedCallback as this attributeChangedCallback will not fire.
//
// https://developers.google.com/web/fundamentals/web-components/best-practices#lazy-properties
//
// TODO(STENCIL-16) we should think about whether or not we actually want to be reflecting the attributes to
// properties here given that this goes against best practices outlined here
// https://developers.google.com/web/fundamentals/web-components/best-practices#avoid-reentrancy
if (this.hasOwnProperty(propName)) {
newValue = this[propName];
delete this[propName];
}
else if (prototype.hasOwnProperty(propName) &&
typeof this[propName] === 'number' &&
this[propName] == newValue) {
// if the propName exists on the prototype of `Cstr`, this update may be a result of Stencil using native
// APIs to reflect props as attributes. Calls to `setAttribute(someElement, propName)` will result in
// `propName` to be converted to a `DOMString`, which may not be what we want for other primitive props.
return;
}
else if (propName == null) {
// At this point we should know this is not a "member", so we can treat it like watching an attribute
// on a vanilla web component
const hostRef = getHostRef(this);
const flags = hostRef === null || hostRef === void 0 ? void 0 : hostRef.$flags$;
// We only want to trigger the callback(s) if:
// 1. The instance is ready
// 2. The watchers are ready
// 3. The value has changed
if (!(flags & 8 /* HOST_FLAGS.isConstructingInstance */) &&
flags & 128 /* HOST_FLAGS.isWatchReady */ &&
newValue !== oldValue) {
const instance = hostRef.$lazyInstance$ ;
const entry = cmpMeta.$watchers$[attrName];
entry === null || entry === void 0 ? void 0 : entry.forEach((callbackName) => {
if (instance[callbackName] != null) {
instance[callbackName].call(instance, newValue, oldValue, attrName);
}
});
}
return;
}
this[propName] = newValue === null && typeof this[propName] === 'boolean' ? false : newValue;
});
};
// Create an array of attributes to observe
// This list in comprised of all strings used within a `@Watch()` decorator
// on a component as well as any Stencil-specific "members" (`@Prop()`s and `@State()`s).
// As such, there is no way to guarantee type-safety here that a user hasn't entered
// an invalid attribute.
Cstr.observedAttributes = Array.from(new Set([
...Object.keys((_a = cmpMeta.$watchers$) !== null && _a !== void 0 ? _a : {}),
...members
.filter(([_, m]) => m[0] & 15 /* MEMBER_FLAGS.HasAttribute */)
.map(([propName, m]) => {
const attrName = m[1] || propName;
attrNameToPropName.set(attrName, propName);
if (m[0] & 512 /* MEMBER_FLAGS.ReflectAttr */) {
cmpMeta.$attrsToReflect$.push([propName, attrName]);
}
return attrName;
}),
]));
}
}
return Cstr;
};
/**
* Initialize a Stencil component given a reference to its host element, its
* runtime bookkeeping data structure, runtime metadata about the component,
* and (optionally) an HMR version ID.
*
* @param elm a host element
* @param hostRef the element's runtime bookkeeping object
* @param cmpMeta runtime metadata for the Stencil component
* @param hmrVersionId an (optional) HMR version ID
*/
const initializeComponent = async (elm, hostRef, cmpMeta, hmrVersionId) => {
let Cstr;
// initializeComponent
if ((hostRef.$flags$ & 32 /* HOST_FLAGS.hasInitializedComponent */) === 0) {
// Let the runtime know that the component has been initialized
hostRef.$flags$ |= 32 /* HOST_FLAGS.hasInitializedComponent */;
{
// lazy loaded components
// request the component's implementation to be
// wired up with the host element
Cstr = loadModule(cmpMeta);
if (Cstr.then) {
// Await creates a micro-task avoid if possible
const endLoad = uniqueTime();
Cstr = await Cstr;
endLoad();
}
if (!Cstr.isProxied) {
// we've never proxied this Constructor before
// let's add the getters/setters to its prototype before
// the first time we create an instance of the implementation
{
cmpMeta.$watchers$ = Cstr.watchers;
}
proxyComponent(Cstr, cmpMeta, 2 /* PROXY_FLAGS.proxyState */);
Cstr.isProxied = true;
}
const endNewInstance = createTime('createInstance', cmpMeta.$tagName$);
// ok, time to construct the instance
// but let's keep track of when we start and stop
// so that the getters/setters don't incorrectly step on data
{
hostRef.$flags$ |= 8 /* HOST_FLAGS.isConstructingInstance */;
}
// construct the lazy-loaded component implementation
// passing the hostRef is very important during
// construction in order to directly wire together the
// host element and the lazy-loaded instance
try {
new Cstr(hostRef);
}
catch (e) {
consoleError(e);
}
{
hostRef.$flags$ &= ~8 /* HOST_FLAGS.isConstructingInstance */;
}
{
hostRef.$flags$ |= 128 /* HOST_FLAGS.isWatchReady */;
}
endNewInstance();
}
if (Cstr.style) {
// this component has styles but we haven't registered them yet
let style = Cstr.style;
const scopeId = getScopeId(cmpMeta);
if (!styles.has(scopeId)) {
const endRegisterStyles = createTime('registerStyles', cmpMeta.$tagName$);
registerStyle(scopeId, style, !!(cmpMeta.$flags$ & 1 /* CMP_FLAGS.shadowDomEncapsulation */));
endRegisterStyles();
}
}
}
// we've successfully created a lazy instance
const ancestorComponent = hostRef.$ancestorComponent$;
const schedule = () => scheduleUpdate(hostRef, true);
if (ancestorComponent && ancestorComponent['s-rc']) {
// this is the initial load and this component it has an ancestor component
// but the ancestor component has NOT fired its will update lifecycle yet
// so let's just cool our jets and wait for the ancestor to continue first
// this will get fired off when the ancestor component
// finally gets around to rendering its lazy self
// fire off the initial update
ancestorComponent['s-rc'].push(schedule);
}
else {
schedule();
}
};
const fireConnectedCallback = (instance) => {
};
const connectedCallback = (elm) => {
if ((plt.$flags$ & 1 /* PLATFORM_FLAGS.isTmpDisconnected */) === 0) {
const hostRef = getHostRef(elm);
const cmpMeta = hostRef.$cmpMeta$;
const endConnected = createTime('connectedCallback', cmpMeta.$tagName$);
if (!(hostRef.$flags$ & 1 /* HOST_FLAGS.hasConnected */)) {
// first time this component has connected
hostRef.$flags$ |= 1 /* HOST_FLAGS.hasConnected */;
{
// initUpdate
// if the slot polyfill is required we'll need to put some nodes
// in here to act as original content anchors as we move nodes around
// host element has been connected to the DOM
if ((// TODO(STENCIL-854): Remove code related to legacy shadowDomShim field
cmpMeta.$flags$ & (4 /* CMP_FLAGS.hasSlotRelocation */ | 8 /* CMP_FLAGS.needsShadowDomShim */))) {
setContentReference(elm);
}
}
{
// find the first ancestor component (if there is one) and register
// this component as one of the actively loading child components for its ancestor
let ancestorComponent = elm;
while ((ancestorComponent = ancestorComponent.parentNode || ancestorComponent.host)) {
// climb up the ancestors looking for the first
// component that hasn't finished its lifecycle update yet
if (ancestorComponent['s-p']) {
// we found this components first ancestor component
// keep a reference to this component's ancestor component
attachToAncestor(hostRef, (hostRef.$ancestorComponent$ = ancestorComponent));
break;
}
}
}
// Lazy properties
// https://developers.google.com/web/fundamentals/web-components/best-practices#lazy-properties
if (cmpMeta.$members$) {
Object.entries(cmpMeta.$members$).map(([memberName, [memberFlags]]) => {
if (memberFlags & 31 /* MEMBER_FLAGS.Prop */ && elm.hasOwnProperty(memberName)) {
const value = elm[memberName];
delete elm[memberName];
elm[memberName] = value;
}
});
}
{
initializeComponent(elm, hostRef, cmpMeta);
}
}
else {
// not the first time this has connected
// reattach any event listeners to the host
// since they would have been removed when disconnected
addHostEventListeners(elm, hostRef, cmpMeta.$listeners$);
// fire off connectedCallback() on component instance
if (hostRef === null || hostRef === void 0 ? void 0 : hostRef.$lazyInstance$) ;
else if (hostRef === null || hostRef === void 0 ? void 0 : hostRef.$onReadyPromise$) {
hostRef.$onReadyPromise$.then(() => fireConnectedCallback());
}
}
endConnected();
}
};
const setContentReference = (elm) => {
// only required when we're NOT using native shadow dom (slot)
// or this browser doesn't support native shadow dom
// and this host element was NOT created with SSR
// let's pick out the inner content for slot projection
// create a node to represent where the original
// content was first placed, which is useful later on
const contentRefElm = (elm['s-cr'] = doc.createComment(''));
contentRefElm['s-cn'] = true;
elm.insertBefore(contentRefElm, elm.firstChild);
};
const disconnectInstance = (instance) => {
{
safeCall(instance, 'disconnectedCallback');
}
};
const disconnectedCallback = async (elm) => {
if ((plt.$flags$ & 1 /* PLATFORM_FLAGS.isTmpDisconnected */) === 0) {
const hostRef = getHostRef(elm);
{
if (hostRef.$rmListeners$) {
hostRef.$rmListeners$.map((rmListener) => rmListener());
hostRef.$rmListeners$ = undefined;
}
}
if (hostRef === null || hostRef === void 0 ? void 0 : hostRef.$lazyInstance$) {
disconnectInstance(hostRef.$lazyInstance$);
}
else if (hostRef === null || hostRef === void 0 ? void 0 : hostRef.$onReadyPromise$) {
hostRef.$onReadyPromise$.then(() => disconnectInstance(hostRef.$lazyInstance$));
}
}
};
const patchCloneNode = (HostElementPrototype) => {
const orgCloneNode = HostElementPrototype.cloneNode;
HostElementPrototype.cloneNode = function (deep) {
const srcNode = this;
const isShadowDom = srcNode.shadowRoot && supportsShadow ;
const clonedNode = orgCloneNode.call(srcNode, isShadowDom ? deep : false);
if (!isShadowDom && deep) {
let i = 0;
let slotted, nonStencilNode;
const stencilPrivates = [
's-id',
's-cr',
's-lr',
's-rc',
's-sc',
's-p',
's-cn',
's-sr',
's-sn',
's-hn',
's-ol',
's-nr',
's-si',
];
for (; i < srcNode.childNodes.length; i++) {
slotted = srcNode.childNodes[i]['s-nr'];
nonStencilNode = stencilPrivates.every((privateField) => !srcNode.childNodes[i][privateField]);
if (slotted) {
{
clonedNode.appendChild(slotted.cloneNode(true));
}
}
if (nonStencilNode) {
clonedNode.appendChild(srcNode.childNodes[i].cloneNode(true));
}
}
}
return clonedNode;
};
};
const bootstrapLazy = (lazyBundles, options = {}) => {
var _a;
const endBootstrap = createTime();
const cmpTags = [];
const exclude = options.exclude || [];
const customElements = win.customElements;
const head = doc.head;
const metaCharset = /*@__PURE__*/ head.querySelector('meta[charset]');
const visibilityStyle = /*@__PURE__*/ doc.createElement('style');
const deferredConnectedCallbacks = [];
let appLoadFallback;
let isBootstrapping = true;
Object.assign(plt, options);
plt.$resourcesUrl$ = new URL(options.resourcesUrl || './', doc.baseURI).href;
lazyBundles.map((lazyBundle) => {
lazyBundle[1].map((compactMeta) => {
var _a;
const cmpMeta = {
$flags$: compactMeta[0],
$tagName$: compactMeta[1],
$members$: compactMeta[2],
$listeners$: compactMeta[3],
};
{
cmpMeta.$members$ = compactMeta[2];
}
{
cmpMeta.$listeners$ = compactMeta[3];
}
{
cmpMeta.$attrsToReflect$ = [];
}
{
cmpMeta.$watchers$ = (_a = compactMeta[4]) !== null && _a !== void 0 ? _a : {};
}
const tagName = cmpMeta.$tagName$;
const HostElement = class extends HTMLElement {
// StencilLazyHost
constructor(self) {
// @ts-ignore
super(self);
self = this;
registerHost(self, cmpMeta);
if (cmpMeta.$flags$ & 1 /* CMP_FLAGS.shadowDomEncapsulation */) {
// this component is using shadow dom
// and this browser supports shadow dom
// add the read-only property "shadowRoot" to the host element
// adding the shadow root build conditionals to minimize runtime
{
{
self.attachShadow({ mode: 'open' });
}
}
}
}
connectedCallback() {
if (appLoadFallback) {
clearTimeout(appLoadFallback);
appLoadFallback = null;
}
if (isBootstrapping) {
// connectedCallback will be processed once all components have been registered
deferredConnectedCallbacks.push(this);
}
else {
plt.jmp(() => connectedCallback(this));
}
}
disconnectedCallback() {
plt.jmp(() => disconnectedCallback(this));
}
componentOnReady() {
return getHostRef(this).$onReadyPromise$;
}
};
// TODO(STENCIL-914): this check and `else` block can go away and be replaced by just `BUILD.scoped` once we
// default our pseudo-slot behavior
{
{
patchCloneNode(HostElement.prototype);
}
}
cmpMeta.$lazyBundleId$ = lazyBundle[0];
if (!exclude.includes(tagName) && !customElements.get(tagName)) {
cmpTags.push(tagName);
customElements.define(tagName, proxyComponent(HostElement, cmpMeta, 1 /* PROXY_FLAGS.isElementConstructor */));
}
});
});
{
visibilityStyle.innerHTML = cmpTags + HYDRATED_CSS;
visibilityStyle.setAttribute('data-styles', '');
// Apply CSP nonce to the style tag if it exists
const nonce = (_a = plt.$nonce$) !== null && _a !== void 0 ? _a : queryNonceMetaTagContent(doc);
if (nonce != null) {
visibilityStyle.setAttribute('nonce', nonce);
}
head.insertBefore(visibilityStyle, metaCharset ? metaCharset.nextSibling : head.firstChild);
}
// Process deferred connectedCallbacks now all components have been registered
isBootstrapping = false;
if (deferredConnectedCallbacks.length) {
deferredConnectedCallbacks.map((host) => host.connectedCallback());
}
else {
{
plt.jmp(() => (appLoadFallback = setTimeout(appDidLoad, 30)));
}
}
// Fallback appLoad event
endBootstrap();
};
const addHostEventListeners = (elm, hostRef, listeners, attachParentListeners) => {
if (listeners) {
listeners.map(([flags, name, method]) => {
const target = getHostListenerTarget(elm, flags) ;
const handler = hostListenerProxy(hostRef, method);
const opts = hostListenerOpts(flags);
plt.ael(target, name, handler, opts);
(hostRef.$rmListeners$ = hostRef.$rmListeners$ || []).push(() => plt.rel(target, name, handler, opts));
});
}
};
const hostListenerProxy = (hostRef, methodName) => (ev) => {
try {
{
if (hostRef.$flags$ & 256 /* HOST_FLAGS.isListenReady */) {
// instance is ready, let's call it's member method for this event
hostRef.$lazyInstance$[methodName](ev);
}
else {
(hostRef.$queuedListeners$ = hostRef.$queuedListeners$ || []).push([methodName, ev]);
}
}
}
catch (e) {
consoleError(e);
}
};
const getHostListenerTarget = (elm, flags) => {
if (flags & 4 /* LISTENER_FLAGS.TargetDocument */)
return doc;
if (flags & 16 /* LISTENER_FLAGS.TargetBody */)
return doc.body;
return elm;
};
// prettier-ignore
const hostListenerOpts = (flags) => (flags & 2 /* LISTENER_FLAGS.Capture */) !== 0;
/**
* Assigns the given value to the nonce property on the runtime platform object.
* During runtime, this value is used to set the nonce attribute on all dynamically created script and style tags.
* @param nonce The value to be assigned to the platform nonce property.
* @returns void
*/
const setNonce = (nonce) => (plt.$nonce$ = nonce);
/**
* A WeakMap mapping runtime component references to their corresponding host reference
* instances.
*/
const hostRefs = /*@__PURE__*/ new WeakMap();
/**
* Given a {@link d.RuntimeRef} retrieve the corresponding {@link d.HostRef}
*
* @param ref the runtime ref of interest
* @returns the Host reference (if found) or undefined
*/
const getHostRef = (ref) => hostRefs.get(ref);
/**
* Register a lazy instance with the {@link hostRefs} object so it's
* corresponding {@link d.HostRef} can be retrieved later.
*
* @param lazyInstance the lazy instance of interest
* @param hostRef that instances `HostRef` object
* @returns a reference to the host ref WeakMap
*/
const registerInstance = (lazyInstance, hostRef) => hostRefs.set((hostRef.$lazyInstance$ = lazyInstance), hostRef);
/**
* Register a host element for a Stencil component, setting up various metadata
* and callbacks based on {@link BUILD} flags as well as the component's runtime
* metadata.
*
* @param hostElement the host element to register
* @param cmpMeta runtime metadata for that component
* @returns a reference to the host ref WeakMap
*/
const registerHost = (hostElement, cmpMeta) => {
const hostRef = {
$flags$: 0,
$hostElement$: hostElement,
$cmpMeta$: cmpMeta,
$instanceValues$: new Map(),
};
{
hostRef.$onInstancePromise$ = new Promise((r) => (hostRef.$onInstanceResolve$ = r));
}
{
hostRef.$onReadyPromise$ = new Promise((r) => (hostRef.$onReadyResolve$ = r));
hostElement['s-p'] = [];
hostElement['s-rc'] = [];
}
addHostEventListeners(hostElement, hostRef, cmpMeta.$listeners$);
return hostRefs.set(hostElement, hostRef);
};
const isMemberInElement = (elm, memberName) => memberName in elm;
const consoleError = (e, el) => (0, console.error)(e, el);
const cmpModules = /*@__PURE__*/ new Map();
const loadModule = (cmpMeta, hostRef, hmrVersionId) => {
// loadModuleImport
const exportName = cmpMeta.$tagName$.replace(/-/g, '_');
const bundleId = cmpMeta.$lazyBundleId$;
const module = cmpModules.get(bundleId) ;
if (module) {
return module[exportName];
}
if (!hmrVersionId || !BUILD.hotModuleReplacement) {
const processMod = importedModule => {
cmpModules.set(bundleId, importedModule);
return importedModule[exportName];
}
switch(bundleId) {
case 'ifx-alert.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-alert.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-badge.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-badge.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-basic-table.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-basic-table.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-breadcrumb.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-breadcrumb.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-breadcrumb-item.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-breadcrumb-item.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-breadcrumb-item-label.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-breadcrumb-item-label.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-card.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-card.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-card-headline.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-card-headline.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-card-image.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-card-image.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-card-links.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-card-links.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-card-overline.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-card-overline.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-card-text.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-card-text.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-chip.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-chip.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-dropdown.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-dropdown.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-dropdown-header.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-dropdown-header.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-dropdown-item.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-dropdown-item.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-dropdown-menu.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-dropdown-menu.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-dropdown-separator.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-dropdown-separator.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-dropdown-trigger.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-dropdown-trigger.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-dropdown-trigger-button.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-dropdown-trigger-button.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-faq.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-faq.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-footer.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-footer.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-footer-column.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-footer-column.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-icons-preview.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-icons-preview.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-list-group.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-list-group.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-list-item.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-list-item.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-list-notification.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-list-notification.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-modal.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-modal.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-multiselect.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-multiselect.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-navbar.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-navbar.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-navbar-item.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-navbar-item.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-navbar-menu.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-navbar-menu.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-navbar-menu-item.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-navbar-menu-item.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-pagination.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-pagination.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-progress-bar.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-progress-bar.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-radio-button.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-radio-button.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-search-bar.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-search-bar.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-sidebar.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-sidebar.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-sidebar-item.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-sidebar-item.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-sidebar-title.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-sidebar-title.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-slider.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-slider.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-spinner.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-spinner.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-status.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-status.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-switch.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-switch.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-tab.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-tab.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-table.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-table.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-tabs.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-tabs.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-tag.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-tag.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-text-field.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-text-field.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-tooltip.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-tooltip.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-accordion_2.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-accordion_2.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-button.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-button.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-checkbox.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-checkbox.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-link.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-link.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-search-field.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-search-field.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-select.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-select.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-icon-button.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-icon-button.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-number-indicator.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-number-indicator.cjs.entry.js')); }).then(processMod, consoleError);
case 'ifx-icon.cjs':
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* webpackMode: "lazy" */
'./ifx-icon.cjs.entry.js')); }).then(processMod, consoleError);
}
}
return Promise.resolve().then(function () { return /*#__PURE__*/_interopNamespace(require(
/* @vite-ignore */
/* webpackInclude: /\.entry\.js$/ */
/* webpackExclude: /\.system\.entry\.js$/ */
/* webpackMode: "lazy" */
`./${bundleId}.entry.js${''}`)); }).then((importedModule) => {
{
cmpModules.set(bundleId, importedModule);
}
return importedModule[exportName];
}, consoleError);
};
const styles = /*@__PURE__*/ new Map();
const win = typeof window !== 'undefined' ? window : {};
const doc = win.document || { head: {} };
const H = (win.HTMLElement || class {
});
const plt = {
$flags$: 0,
$resourcesUrl$: '',
jmp: (h) => h(),
raf: (h) => requestAnimationFrame(h),
ael: (el, eventName, listener, opts) => el.addEventListener(eventName, listener, opts),
rel: (el, eventName, listener, opts) => el.removeEventListener(eventName, listener, opts),
ce: (eventName, opts) => new CustomEvent(eventName, opts),
};
const supportsShadow =
// TODO(STENCIL-854): Remove code related to legacy shadowDomShim field
true;
const promiseResolve = (v) => Promise.resolve(v);
const supportsConstructableStylesheets = /*@__PURE__*/ (() => {
try {
new CSSStyleSheet();
return typeof new CSSStyleSheet().replaceSync === 'function';
}
catch (e) { }
return false;
})()
;
const queueDomReads = [];
const queueDomWrites = [];
const queueTask = (queue, write) => (cb) => {
queue.push(cb);
if (!queuePending) {
queuePending = true;
if (write && plt.$flags$ & 4 /* PLATFORM_FLAGS.queueSync */) {
nextTick(flush);
}
else {
plt.raf(flush);
}
}
};
const consume = (queue) => {
for (let i = 0; i < queue.length; i++) {
try {
queue[i](performance.now());
}
catch (e) {
consoleError(e);
}
}
queue.length = 0;
};
const flush = () => {
// always force a bunch of medium callbacks to run, but still have
// a throttle on how many can run in a certain time
// DOM READS!!!
consume(queueDomReads);
// DOM WRITES!!!
{
consume(queueDomWrites);
if ((queuePending = queueDomReads.length > 0)) {
// still more to do yet, but we've run out of time
// let's let this thing cool off and try again in the next tick
plt.raf(flush);
}
}
};
const nextTick = /*@__PURE__*/ (cb) => promiseResolve().then(cb);
const writeTask = /*@__PURE__*/ queueTask(queueDomWrites, true);
exports.H = H;
exports.Host = Host;
exports.bootstrapLazy = bootstrapLazy;
exports.createEvent = createEvent;
exports.getElement = getElement;
exports.h = h;
exports.promiseResolve = promiseResolve;
exports.registerInstance = registerInstance;
exports.setNonce = setNonce;
//# sourceMappingURL=index-ca0e0765.js.map
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