import VNode, { createTextVNode } from 'core/vdom/vnode'
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import {
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isFalse,
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isTrue,
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isArray,
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isDef,
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isUndef,
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isPrimitive
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} from 'shared/util'
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// The template compiler attempts to minimize the need for normalization by
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// statically analyzing the template at compile time.
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//
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// For plain HTML markup, normalization can be completely skipped because the
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// generated render function is guaranteed to return Array<VNode>. There are
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// two cases where extra normalization is needed:
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// 1. When the children contains components - because a functional component
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// may return an Array instead of a single root. In this case, just a simple
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// normalization is needed - if any child is an Array, we flatten the whole
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// thing with Array.prototype.concat. It is guaranteed to be only 1-level deep
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// because functional components already normalize their own children.
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export function simpleNormalizeChildren(children: any) {
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for (let i = 0; i < children.length; i++) {
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if (isArray(children[i])) {
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return Array.prototype.concat.apply([], children)
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}
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}
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return children
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}
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// 2. When the children contains constructs that always generated nested Arrays,
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// e.g. <template>, <slot>, v-for, or when the children is provided by user
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// with hand-written render functions / JSX. In such cases a full normalization
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// is needed to cater to all possible types of children values.
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export function normalizeChildren(children: any): Array<VNode> | undefined {
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return isPrimitive(children)
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? [createTextVNode(children)]
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: isArray(children)
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? normalizeArrayChildren(children)
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: undefined
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}
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function isTextNode(node): boolean {
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return isDef(node) && isDef(node.text) && isFalse(node.isComment)
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}
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function normalizeArrayChildren(
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children: any,
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nestedIndex?: string
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): Array<VNode> {
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const res: VNode[] = []
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let i, c, lastIndex, last
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for (i = 0; i < children.length; i++) {
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c = children[i]
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if (isUndef(c) || typeof c === 'boolean') continue
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lastIndex = res.length - 1
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last = res[lastIndex]
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// nested
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if (isArray(c)) {
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if (c.length > 0) {
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c = normalizeArrayChildren(c, `${nestedIndex || ''}_${i}`)
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// merge adjacent text nodes
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if (isTextNode(c[0]) && isTextNode(last)) {
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res[lastIndex] = createTextVNode(last.text + c[0].text)
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c.shift()
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}
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res.push.apply(res, c)
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}
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} else if (isPrimitive(c)) {
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if (isTextNode(last)) {
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// merge adjacent text nodes
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// this is necessary for SSR hydration because text nodes are
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// essentially merged when rendered to HTML strings
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res[lastIndex] = createTextVNode(last.text + c)
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} else if (c !== '') {
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// convert primitive to vnode
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res.push(createTextVNode(c))
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}
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} else {
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if (isTextNode(c) && isTextNode(last)) {
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// merge adjacent text nodes
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res[lastIndex] = createTextVNode(last.text + c.text)
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} else {
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// default key for nested array children (likely generated by v-for)
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if (
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isTrue(children._isVList) &&
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isDef(c.tag) &&
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isUndef(c.key) &&
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isDef(nestedIndex)
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) {
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c.key = `__vlist${nestedIndex}_${i}__`
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}
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res.push(c)
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}
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}
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}
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return res
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}
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