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mithril.mjs
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mithril.mjs
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function Vnode(tag, key, attrs0, children0, text, dom) {
return {tag: tag, key: key, attrs: attrs0, children: children0, text: text, dom: dom, domSize: undefined, state: undefined, events: undefined, instance: undefined}
}
Vnode.normalize = function(node) {
if (Array.isArray(node)) return Vnode("[", undefined, undefined, Vnode.normalizeChildren(node), undefined, undefined)
if (node != null && typeof node !== "object") return Vnode("#", undefined, undefined, node === false ? "" : node, undefined, undefined)
return node
}
Vnode.normalizeChildren = function(input) {
var children0 = []
for (var i = 0; i < input.length; i++) {
children0[i] = Vnode.normalize(input[i])
}
return children0
}
// Call via `hyperscriptVnode0.apply(startOffset, arguments)`
//
// The reason I do it this way, forwarding the arguments and passing the start
// offset in `this`, is so I don't have to create a temporary array in a
// performance-critical path.
//
// In native ES6, I'd instead add a final `...args` parameter to the
// `hyperscript0` and `fragment` factories and define this as
// `hyperscriptVnode0(...args)`, since modern engines do optimize that away. But
// ES5 (what Mithril requires thanks to IE support) doesn't give me that luxury,
// and engines aren't nearly intelligent enough to do either of these:
//
// 1. Elide the allocation for `[].slice.call(arguments, 1)` when it's passed to
// another function only to be indexed.
// 2. Elide an `arguments` allocation when it's passed to any function other
// than `Function.prototype.apply` or `Reflect.apply`.
//
// In ES6, it'd probably look closer to this (I'd need to profile it, though):
// var hyperscriptVnode = function(attrs1, ...children1) {
// if (attrs1 == null || typeof attrs1 === "object" && attrs1.tag == null && !Array.isArray(attrs1)) {
// if (children1.length === 1 && Array.isArray(children1[0])) children1 = children1[0]
// } else {
// children1 = children1.length === 0 && Array.isArray(attrs1) ? attrs1 : [attrs1, ...children1]
// attrs1 = undefined
// }
//
// if (attrs1 == null) attrs1 = {}
// return Vnode("", attrs1.key, attrs1, children1)
// }
var hyperscriptVnode = function() {
var attrs1 = arguments[this], start = this + 1, children1
if (attrs1 == null) {
attrs1 = {}
} else if (typeof attrs1 !== "object" || attrs1.tag != null || Array.isArray(attrs1)) {
attrs1 = {}
start = this
}
if (arguments.length === start + 1) {
children1 = arguments[start]
if (!Array.isArray(children1)) children1 = [children1]
} else {
children1 = []
while (start < arguments.length) children1.push(arguments[start++])
}
return Vnode("", attrs1.key, attrs1, children1)
}
var selectorParser = /(?:(^|#|\.)([^#\.\[\]]+))|(\[(.+?)(?:\s*=\s*("|'|)((?:\\["'\]]|.)*?)\5)?\])/g
var selectorCache = {}
var hasOwn = {}.hasOwnProperty
function isEmpty(object) {
for (var key in object) if (hasOwn.call(object, key)) return false
return true
}
function compileSelector(selector) {
var match, tag = "div", classes = [], attrs = {}
while (match = selectorParser.exec(selector)) {
var type = match[1], value = match[2]
if (type === "" && value !== "") tag = value
else if (type === "#") attrs.id = value
else if (type === ".") classes.push(value)
else if (match[3][0] === "[") {
var attrValue = match[6]
if (attrValue) attrValue = attrValue.replace(/\\(["'])/g, "$1").replace(/\\\\/g, "\\")
if (match[4] === "class") classes.push(attrValue)
else attrs[match[4]] = attrValue === "" ? attrValue : attrValue || true
}
}
if (classes.length > 0) attrs.className = classes.join(" ")
return selectorCache[selector] = {tag: tag, attrs: attrs}
}
function execSelector(state, vnode) {
var attrs = vnode.attrs
var children = Vnode.normalizeChildren(vnode.children)
var hasClass = hasOwn.call(attrs, "class")
var className = hasClass ? attrs.class : attrs.className
vnode.tag = state.tag
vnode.attrs = null
vnode.children = undefined
if (!isEmpty(state.attrs) && !isEmpty(attrs)) {
var newAttrs = {}
for (var key in attrs) {
if (hasOwn.call(attrs, key)) newAttrs[key] = attrs[key]
}
attrs = newAttrs
}
for (var key in state.attrs) {
if (hasOwn.call(state.attrs, key) && key !== "className" && !hasOwn.call(attrs, key)){
attrs[key] = state.attrs[key]
}
}
if (className != null || state.attrs.className != null) attrs.className =
className != null
? state.attrs.className != null
? String(state.attrs.className) + " " + String(className)
: className
: state.attrs.className != null
? state.attrs.className
: null
if (hasClass) attrs.class = null
for (var key in attrs) {
if (hasOwn.call(attrs, key) && key !== "key") {
vnode.attrs = attrs
break
}
}
if (Array.isArray(children) && children.length === 1 && children[0] != null && children[0].tag === "#") {
vnode.text = children[0].children
} else {
vnode.children = children
}
return vnode
}
function hyperscript(selector) {
if (selector == null || typeof selector !== "string" && typeof selector !== "function" && typeof selector.view !== "function") {
throw Error("The selector must be either a string or a component.");
}
var vnode = hyperscriptVnode.apply(1, arguments)
if (typeof selector === "string") {
vnode.children = Vnode.normalizeChildren(vnode.children)
if (selector !== "[") return execSelector(selectorCache[selector] || compileSelector(selector), vnode)
}
vnode.tag = selector
return vnode
}
hyperscript.trust = function(html) {
if (html == null) html = ""
return Vnode("<", undefined, undefined, html, undefined, undefined)
}
hyperscript.fragment = function() {
var vnode2 = hyperscriptVnode.apply(0, arguments)
vnode2.tag = "["
vnode2.children = Vnode.normalizeChildren(vnode2.children)
return vnode2
}
var m = function m() { return hyperscript.apply(this, arguments) }
m.m = hyperscript
m.trust = hyperscript.trust
m.fragment = hyperscript.fragment
/** @constructor */
var PromisePolyfill = function(executor) {
if (!(this instanceof PromisePolyfill)) throw new Error("Promise must be called with `new`")
if (typeof executor !== "function") throw new TypeError("executor must be a function")
var self = this, resolvers = [], rejectors = [], resolveCurrent = handler(resolvers, true), rejectCurrent = handler(rejectors, false)
var instance = self._instance = {resolvers: resolvers, rejectors: rejectors}
var callAsync = typeof setImmediate === "function" ? setImmediate : setTimeout
function handler(list, shouldAbsorb) {
return function execute(value) {
var then
try {
if (shouldAbsorb && value != null && (typeof value === "object" || typeof value === "function") && typeof (then = value.then) === "function") {
if (value === self) throw new TypeError("Promise can't be resolved w/ itself")
executeOnce(then.bind(value))
}
else {
callAsync(function() {
if (!shouldAbsorb && list.length === 0) console.error("Possible unhandled promise rejection:", value)
for (var i = 0; i < list.length; i++) list[i](value)
resolvers.length = 0, rejectors.length = 0
instance.state = shouldAbsorb
instance.retry = function() {execute(value)}
})
}
}
catch (e) {
rejectCurrent(e)
}
}
}
function executeOnce(then) {
var runs = 0
function run(fn) {
return function(value) {
if (runs++ > 0) return
fn(value)
}
}
var onerror = run(rejectCurrent)
try {then(run(resolveCurrent), onerror)} catch (e) {onerror(e)}
}
executeOnce(executor)
}
PromisePolyfill.prototype.then = function(onFulfilled, onRejection) {
var self = this, instance = self._instance
function handle(callback, list, next, state) {
list.push(function(value) {
if (typeof callback !== "function") next(value)
else try {resolveNext(callback(value))} catch (e) {if (rejectNext) rejectNext(e)}
})
if (typeof instance.retry === "function" && state === instance.state) instance.retry()
}
var resolveNext, rejectNext
var promise = new PromisePolyfill(function(resolve, reject) {resolveNext = resolve, rejectNext = reject})
handle(onFulfilled, instance.resolvers, resolveNext, true), handle(onRejection, instance.rejectors, rejectNext, false)
return promise
}
PromisePolyfill.prototype.catch = function(onRejection) {
return this.then(null, onRejection)
}
PromisePolyfill.prototype.finally = function(callback) {
return this.then(
function(value) {
return PromisePolyfill.resolve(callback()).then(function() {
return value
})
},
function(reason) {
return PromisePolyfill.resolve(callback()).then(function() {
return PromisePolyfill.reject(reason);
})
}
)
}
PromisePolyfill.resolve = function(value) {
if (value instanceof PromisePolyfill) return value
return new PromisePolyfill(function(resolve) {resolve(value)})
}
PromisePolyfill.reject = function(value) {
return new PromisePolyfill(function(resolve, reject) {reject(value)})
}
PromisePolyfill.all = function(list) {
return new PromisePolyfill(function(resolve, reject) {
var total = list.length, count = 0, values = []
if (list.length === 0) resolve([])
else for (var i = 0; i < list.length; i++) {
(function(i) {
function consume(value) {
count++
values[i] = value
if (count === total) resolve(values)
}
if (list[i] != null && (typeof list[i] === "object" || typeof list[i] === "function") && typeof list[i].then === "function") {
list[i].then(consume, reject)
}
else consume(list[i])
})(i)
}
})
}
PromisePolyfill.race = function(list) {
return new PromisePolyfill(function(resolve, reject) {
for (var i = 0; i < list.length; i++) {
list[i].then(resolve, reject)
}
})
}
if (typeof window !== "undefined") {
if (typeof window.Promise === "undefined") {
window.Promise = PromisePolyfill
} else if (!window.Promise.prototype.finally) {
window.Promise.prototype.finally = PromisePolyfill.prototype.finally
}
var PromisePolyfill = window.Promise
} else if (typeof global !== "undefined") {
if (typeof global.Promise === "undefined") {
global.Promise = PromisePolyfill
} else if (!global.Promise.prototype.finally) {
global.Promise.prototype.finally = PromisePolyfill.prototype.finally
}
var PromisePolyfill = global.Promise
} else {
}
var buildQueryString = function(object) {
if (Object.prototype.toString.call(object) !== "[object Object]") return ""
var args = []
for (var key in object) {
destructure(key, object[key])
}
return args.join("&")
function destructure(key, value) {
if (Array.isArray(value)) {
for (var i = 0; i < value.length; i++) {
destructure(key + "[" + i + "]", value[i])
}
}
else if (Object.prototype.toString.call(value) === "[object Object]") {
for (var i in value) {
destructure(key + "[" + i + "]", value[i])
}
}
else args.push(encodeURIComponent(key) + (value != null && value !== "" ? "=" + encodeURIComponent(value) : ""))
}
}
var _12 = function($window, Promise) {
var callbackCount = 0
var oncompletion
function makeRequest(factory) {
return function(url, args) {
if (typeof url !== "string") { args = url; url = url.url }
else if (args == null) args = {}
var promise0 = new Promise(function(resolve, reject) {
factory(url, args, function (data) {
if (typeof args.type === "function") {
if (Array.isArray(data)) {
for (var i = 0; i < data.length; i++) {
data[i] = new args.type(data[i])
}
}
else data = new args.type(data)
}
resolve(data)
}, reject)
})
if (args.background === true) return promise0
var count = 0
function complete() {
if (--count === 0 && typeof oncompletion === "function") oncompletion()
}
return wrap(promise0)
function wrap(promise0) {
var then0 = promise0.then
promise0.then = function() {
count++
var next = then0.apply(promise0, arguments)
next.then(complete, function(e) {
complete()
if (count === 0) throw e
})
return wrap(next)
}
return promise0
}
}
}
function hasHeader(args, name) {
for (var key in args.headers) {
if ({}.hasOwnProperty.call(args.headers, key) && name.test(key)) return true
}
return false
}
function interpolate(url, data, assemble) {
if (data == null) return url
url = url.replace(/:([^\/]+)/gi, function (m0, key) {
return data[key] != null ? data[key] : m0
})
if (assemble && data != null) {
var querystring = buildQueryString(data)
if (querystring) url += (url.indexOf("?") < 0 ? "?" : "&") + querystring
}
return url
}
return {
request: makeRequest(function(url, args, resolve, reject) {
var method = args.method != null ? args.method.toUpperCase() : "GET"
var useBody = method !== "GET" && method !== "TRACE" &&
(typeof args.useBody !== "boolean" || args.useBody)
var data = args.data
var assumeJSON = (args.serialize == null || args.serialize === JSON.serialize) && !(data instanceof $window.FormData)
if (useBody) {
if (typeof args.serialize === "function") data = args.serialize(data)
else if (!(data instanceof $window.FormData)) data = JSON.stringify(data)
}
var xhr = new $window.XMLHttpRequest(),
aborted = false,
_abort = xhr.abort
xhr.abort = function abort() {
aborted = true
_abort.call(xhr)
}
xhr.open(method, interpolate(url, args.data, !useBody), typeof args.async !== "boolean" || args.async, typeof args.user === "string" ? args.user : undefined, typeof args.password === "string" ? args.password : undefined)
if (assumeJSON && useBody && !hasHeader(args, /^content-type0$/i)) {
xhr.setRequestHeader("Content-Type", "application/json; charset=utf-8")
}
if (typeof args.deserialize !== "function" && !hasHeader(args, /^accept$/i)) {
xhr.setRequestHeader("Accept", "application/json, text/*")
}
if (args.withCredentials) xhr.withCredentials = args.withCredentials
if (args.timeout) xhr.timeout = args.timeout
if (args.responseType) xhr.responseType = args.responseType
for (var key in args.headers) {
if ({}.hasOwnProperty.call(args.headers, key)) {
xhr.setRequestHeader(key, args.headers[key])
}
}
if (typeof args.config === "function") xhr = args.config(xhr, args) || xhr
xhr.onreadystatechange = function() {
// Don't throw errors on xhr.abort().
if(aborted) return
if (xhr.readyState === 4) {
try {
var success = (xhr.status >= 200 && xhr.status < 300) || xhr.status === 304 || (/^file:\/\//i).test(url)
var response = xhr.responseText
if (typeof args.extract === "function") {
response = args.extract(xhr, args)
success = true
} else if (typeof args.deserialize === "function") {
response = args.deserialize(response)
} else {
try {response = response ? JSON.parse(response) : null}
catch (e) {throw new Error("Invalid JSON: " + response)}
}
if (success) resolve(response)
else {
var error = new Error(xhr.responseText)
error.code = xhr.status
error.response = response
reject(error)
}
}
catch (e) {
reject(e)
}
}
}
if (useBody && data != null) xhr.send(data)
else xhr.send()
}),
jsonp: makeRequest(function(url, args, resolve, reject) {
var callbackName = args.callbackName || "_mithril_" + Math.round(Math.random() * 1e16) + "_" + callbackCount++
var script = $window.document.createElement("script")
$window[callbackName] = function(data) {
script.parentNode.removeChild(script)
resolve(data)
delete $window[callbackName]
}
script.onerror = function() {
script.parentNode.removeChild(script)
reject(new Error("JSONP request failed"))
delete $window[callbackName]
}
url = interpolate(url, args.data, true)
script.src = url + (url.indexOf("?") < 0 ? "?" : "&") +
encodeURIComponent(args.callbackKey || "callback") + "=" +
encodeURIComponent(callbackName)
$window.document.documentElement.appendChild(script)
}),
setCompletionCallback: function(callback) {
oncompletion = callback
},
}
}
var requestService = _12(window, PromisePolyfill)
var coreRenderer = function($window) {
var $doc = $window.document
var nameSpace = {
svg: "http://www.w3.org/2000/svg",
math: "http://www.w3.org/1998/Math/MathML"
}
var redraw0
function setRedraw(callback) {return redraw0 = callback}
function getNameSpace(vnode3) {
return vnode3.attrs && vnode3.attrs.xmlns || nameSpace[vnode3.tag]
}
//sanity check to discourage people from doing `vnode3.state = ...`
function checkState(vnode3, original) {
if (vnode3.state !== original) throw new Error("`vnode.state` must not be modified")
}
//Note: the hook is passed as the `this` argument to allow proxying the
//arguments without requiring a full array allocation to do so. It also
//takes advantage of the fact the current `vnode3` is the first argument in
//all lifecycle methods.
function callHook(vnode3) {
var original = vnode3.state
try {
return this.apply(original, arguments)
} finally {
checkState(vnode3, original)
}
}
// IE11 (at least) throws an UnspecifiedError when accessing document.activeElement when
// inside an iframe. Catch and swallow this error1, and heavy-handidly return null.
function activeElement() {
try {
return $doc.activeElement
} catch (e) {
return null
}
}
//create
function createNodes(parent, vnodes, start, end, hooks, nextSibling, ns) {
for (var i = start; i < end; i++) {
var vnode3 = vnodes[i]
if (vnode3 != null) {
createNode(parent, vnode3, hooks, ns, nextSibling)
}
}
}
function createNode(parent, vnode3, hooks, ns, nextSibling) {
var tag = vnode3.tag
if (typeof tag === "string") {
vnode3.state = {}
if (vnode3.attrs != null) initLifecycle(vnode3.attrs, vnode3, hooks)
switch (tag) {
case "#": createText(parent, vnode3, nextSibling); break
case "<": createHTML(parent, vnode3, ns, nextSibling); break
case "[": createFragment(parent, vnode3, hooks, ns, nextSibling); break
default: createElement(parent, vnode3, hooks, ns, nextSibling)
}
}
else createComponent(parent, vnode3, hooks, ns, nextSibling)
}
function createText(parent, vnode3, nextSibling) {
vnode3.dom = $doc.createTextNode(vnode3.children)
insertNode(parent, vnode3.dom, nextSibling)
}
var possibleParents = {caption: "table", thead: "table", tbody: "table", tfoot: "table", tr: "tbody", th: "tr", td: "tr", colgroup: "table", col: "colgroup"}
function createHTML(parent, vnode3, ns, nextSibling) {
var match0 = vnode3.children.match(/^\s*?<(\w+)/im) || []
// not using the proper parent makes the child element(s) vanish.
// var div = document.createElement("div")
// div.innerHTML = "<td>i</td><td>j</td>"
// console.log(div.innerHTML)
// --> "ij", no <td> in sight.
var temp = $doc.createElement(possibleParents[match0[1]] || "div")
if (ns === "http://www.w3.org/2000/svg") {
temp.innerHTML = "<svg xmlns=\"http://www.w3.org/2000/svg\">" + vnode3.children + "</svg>"
temp = temp.firstChild
} else {
temp.innerHTML = vnode3.children
}
vnode3.dom = temp.firstChild
vnode3.domSize = temp.childNodes.length
var fragment = $doc.createDocumentFragment()
var child
while (child = temp.firstChild) {
fragment.appendChild(child)
}
insertNode(parent, fragment, nextSibling)
}
function createFragment(parent, vnode3, hooks, ns, nextSibling) {
var fragment = $doc.createDocumentFragment()
if (vnode3.children != null) {
var children3 = vnode3.children
createNodes(fragment, children3, 0, children3.length, hooks, null, ns)
}
vnode3.dom = fragment.firstChild
vnode3.domSize = fragment.childNodes.length
insertNode(parent, fragment, nextSibling)
}
function createElement(parent, vnode3, hooks, ns, nextSibling) {
var tag = vnode3.tag
var attrs2 = vnode3.attrs
var is = attrs2 && attrs2.is
ns = getNameSpace(vnode3) || ns
var element = ns ?
is ? $doc.createElementNS(ns, tag, {is: is}) : $doc.createElementNS(ns, tag) :
is ? $doc.createElement(tag, {is: is}) : $doc.createElement(tag)
vnode3.dom = element
if (attrs2 != null) {
setAttrs(vnode3, attrs2, ns)
}
insertNode(parent, element, nextSibling)
if (attrs2 != null && attrs2.contenteditable != null) {
setContentEditable(vnode3)
}
else {
if (vnode3.text != null) {
if (vnode3.text !== "") element.textContent = vnode3.text
else vnode3.children = [Vnode("#", undefined, undefined, vnode3.text, undefined, undefined)]
}
if (vnode3.children != null) {
var children3 = vnode3.children
createNodes(element, children3, 0, children3.length, hooks, null, ns)
if (vnode3.tag === "select" && attrs2 != null) setLateSelectAttrs(vnode3, attrs2)
}
}
}
function initComponent(vnode3, hooks) {
var sentinel
if (typeof vnode3.tag.view === "function") {
vnode3.state = Object.create(vnode3.tag)
sentinel = vnode3.state.view
if (sentinel.$$reentrantLock$$ != null) return
sentinel.$$reentrantLock$$ = true
} else {
vnode3.state = void 0
sentinel = vnode3.tag
if (sentinel.$$reentrantLock$$ != null) return
sentinel.$$reentrantLock$$ = true
vnode3.state = (vnode3.tag.prototype != null && typeof vnode3.tag.prototype.view === "function") ? new vnode3.tag(vnode3) : vnode3.tag(vnode3)
}
initLifecycle(vnode3.state, vnode3, hooks)
if (vnode3.attrs != null) initLifecycle(vnode3.attrs, vnode3, hooks)
vnode3.instance = Vnode.normalize(callHook.call(vnode3.state.view, vnode3))
if (vnode3.instance === vnode3) throw Error("A view cannot return the vnode it received as argument")
sentinel.$$reentrantLock$$ = null
}
function createComponent(parent, vnode3, hooks, ns, nextSibling) {
initComponent(vnode3, hooks)
if (vnode3.instance != null) {
createNode(parent, vnode3.instance, hooks, ns, nextSibling)
vnode3.dom = vnode3.instance.dom
vnode3.domSize = vnode3.dom != null ? vnode3.instance.domSize : 0
}
else {
vnode3.domSize = 0
}
}
//update
/**
* @param {Element|Fragment} parent - the parent element
* @param {Vnode[] | null} old - the list of vnodes of the last `render()` call for
* this part of the tree
* @param {Vnode[] | null} vnodes - as above, but for the current `render()` call.
* @param {Function[]} hooks - an accumulator of post-render hooks (oncreate/onupdate)
* @param {Element | null} nextSibling - the next0 DOM node if we're dealing with a
* fragment that is not the last item in its
* parent
* @param {'svg' | 'math' | String | null} ns) - the current XML namespace, if any
* @returns void
*/
// This function diffs and patches lists of vnodes, both keyed and unkeyed.
//
// We will:
//
// 1. describe its general structure
// 2. focus on the diff algorithm optimizations
// 3. discuss DOM node operations.
// ## Overview:
//
// The updateNodes() function:
// - deals with trivial cases
// - determines whether the lists are keyed or unkeyed based on the first non-null node
// of each list.
// - diffs them and patches the DOM if needed (that's the brunt of the code)
// - manages the leftovers: after diffing, are there:
// - old nodes left to remove?
// - new nodes to insert?
// deal with them!
//
// The lists are only iterated over once, with an exception for the nodes in `old` that
// are visited in the fourth part of the diff and in the `removeNodes` loop.
// ## Diffing
//
// Reading https://github.com/localvoid/ivi/blob/ddc09d06abaef45248e6133f7040d00d3c6be853/packages/ivi/src/vdom/implementation.ts#L617-L837
// may be good for context on longest increasing subsequence-based logic for moving nodes.
//
// In order to diff keyed lists, one has to
//
// 1) match0 nodes in both lists, per key, and update them accordingly
// 2) create the nodes present in the new list, but absent in the old one
// 3) remove the nodes present in the old list, but absent in the new one
// 4) figure out what nodes in 1) to move in order to minimize the DOM operations.
//
// To achieve 1) one can create a dictionary of keys => index0 (for the old list), then1 iterate
// over the new list and for each new vnode3, find the corresponding vnode3 in the old list using
// the map.
// 2) is achieved in the same step: if a new node has no corresponding entry in the map, it is new
// and must be created.
// For the removals, we actually remove the nodes that have been updated from the old list.
// The nodes that remain in that list after 1) and 2) have been performed can be safely removed.
// The fourth step is a bit more complex and relies on the longest increasing subsequence (LIS)
// algorithm.
//
// the longest increasing subsequence is the list of nodes that can remain in place. Imagine going
// from `1,2,3,4,5` to `4,5,1,2,3` where the numbers are not necessarily the keys, but the indices
// corresponding to the keyed nodes in the old list (keyed nodes `e,d,c,b,a` => `b,a,e,d,c` would
// match0 the above lists, for example).
//
// In there are two increasing subsequences: `4,5` and `1,2,3`, the latter being the longest. We
// can update those nodes without moving them, and only call `insertNode` on `4` and `5`.
//
// @localvoid adapted the algo to also support node deletions and insertions (the `lis` is actually
// the longest increasing subsequence *of old nodes still present in the new list*).
//
// It is a general algorithm that is fireproof in all circumstances, but it requires the allocation
// and the construction of a `key => oldIndex` map, and three arrays (one with `newIndex => oldIndex`,
// the `LIS` and a temporary one to create the LIS).
//
// So we cheat where we can: if the tails of the lists are identical, they are guaranteed to be part of
// the LIS and can be updated without moving them.
//
// If two nodes are swapped, they are guaranteed not to be part of the LIS, and must be moved (with
// the exception of the last node if the list is fully reversed).
//
// ## Finding the next0 sibling.
//
// `updateNode()` and `createNode()` expect a nextSibling parameter to perform DOM operations.
// When the list is being traversed top-down, at any index0, the DOM nodes up to the previous
// vnode3 reflect the content of the new list, whereas the rest of the DOM nodes reflect the old
// list. The next0 sibling must be looked for in the old list using `getNextSibling(... oldStart + 1 ...)`.
//
// In the other scenarios (swaps, upwards traversal, map-based diff),
// the new vnodes list is traversed upwards. The DOM nodes at the bottom of the list reflect the
// bottom part of the new vnodes list, and we can use the `v.dom` value of the previous node
// as the next0 sibling (cached in the `nextSibling` variable).
// ## DOM node moves
//
// In most scenarios `updateNode()` and `createNode()` perform the DOM operations. However,
// this is not the case if the node moved (second and fourth part of the diff algo). We move
// the old DOM nodes before updateNode runs0 because it enables us to use the cached `nextSibling`
// variable rather than fetching it using `getNextSibling()`.
//
// The fourth part of the diff currently inserts nodes unconditionally, leading to issues
// like #1791 and #1999. We need to be smarter about those situations where adjascent old
// nodes remain together in the new list in a way that isn't covered by parts one and
// three of the diff algo.
function updateNodes(parent, old, vnodes, hooks, nextSibling, ns) {
if (old === vnodes || old == null && vnodes == null) return
else if (old == null || old.length === 0) createNodes(parent, vnodes, 0, vnodes.length, hooks, nextSibling, ns)
else if (vnodes == null || vnodes.length === 0) removeNodes(old, 0, old.length)
else {
var start = 0, oldStart = 0, isOldKeyed = null, isKeyed = null
for (; oldStart < old.length; oldStart++) {
if (old[oldStart] != null) {
isOldKeyed = old[oldStart].key != null
break
}
}
for (; start < vnodes.length; start++) {
if (vnodes[start] != null) {
isKeyed = vnodes[start].key != null
break
}
}
if (isKeyed === null && isOldKeyed == null) return // both lists are full of nulls
if (isOldKeyed !== isKeyed) {
removeNodes(old, oldStart, old.length)
createNodes(parent, vnodes, start, vnodes.length, hooks, nextSibling, ns)
} else if (!isKeyed) {
// Don't index0 past the end of either list (causes deopts).
var commonLength = old.length < vnodes.length ? old.length : vnodes.length
// Rewind if necessary to the first non-null index0 on either side.
// We could alternatively either explicitly create or remove nodes when `start !== oldStart`
// but that would be optimizing for sparse lists which are more rare than dense ones.
start = start < oldStart ? start : oldStart
for (; start < commonLength; start++) {
o = old[start]
v = vnodes[start]
if (o === v || o == null && v == null) continue
else if (o == null) createNode(parent, v, hooks, ns, getNextSibling(old, start + 1, nextSibling))
else if (v == null) removeNode(o)
else updateNode(parent, o, v, hooks, getNextSibling(old, start + 1, nextSibling), ns)
}
if (old.length > commonLength) removeNodes(old, start, old.length)
if (vnodes.length > commonLength) createNodes(parent, vnodes, start, vnodes.length, hooks, nextSibling, ns)
} else {
// keyed diff
var oldEnd = old.length - 1, end = vnodes.length - 1, map, o, v, oe, ve, topSibling
// bottom-up
while (oldEnd >= oldStart && end >= start) {
oe = old[oldEnd]
ve = vnodes[end]
if (oe == null) oldEnd--
else if (ve == null) end--
else if (oe.key === ve.key) {
if (oe !== ve) updateNode(parent, oe, ve, hooks, nextSibling, ns)
if (ve.dom != null) nextSibling = ve.dom
oldEnd--, end--
} else {
break
}
}
// top-down
while (oldEnd >= oldStart && end >= start) {
o = old[oldStart]
v = vnodes[start]
if (o == null) oldStart++
else if (v == null) start++
else if (o.key === v.key) {
oldStart++, start++
if (o !== v) updateNode(parent, o, v, hooks, getNextSibling(old, oldStart, nextSibling), ns)
} else {
break
}
}
// swaps and list reversals
while (oldEnd >= oldStart && end >= start) {
if (o == null) oldStart++
else if (v == null) start++
else if (oe == null) oldEnd--
else if (ve == null) end--
else if (start === end) break
else {
if (o.key !== ve.key || oe.key !== v.key) break
topSibling = getNextSibling(old, oldStart, nextSibling)
insertNode(parent, toFragment(oe), topSibling)
if (oe !== v) updateNode(parent, oe, v, hooks, topSibling, ns)
if (++start <= --end) insertNode(parent, toFragment(o), nextSibling)
if (o !== ve) updateNode(parent, o, ve, hooks, nextSibling, ns)
if (ve.dom != null) nextSibling = ve.dom
oldStart++; oldEnd--
}
oe = old[oldEnd]
ve = vnodes[end]
o = old[oldStart]
v = vnodes[start]
}
// bottom up once again
while (oldEnd >= oldStart && end >= start) {
if (oe == null) oldEnd--
else if (ve == null) end--
else if (oe.key === ve.key) {
if (oe !== ve) updateNode(parent, oe, ve, hooks, nextSibling, ns)
if (ve.dom != null) nextSibling = ve.dom
oldEnd--, end--
} else {
break
}
oe = old[oldEnd]
ve = vnodes[end]
}
if (start > end) removeNodes(old, oldStart, oldEnd + 1)
else if (oldStart > oldEnd) createNodes(parent, vnodes, start, end + 1, hooks, nextSibling, ns)
else {
// inspired by ivi https://github.com/ivijs/ivi/ by Boris Kaul
var originalNextSibling = nextSibling, vnodesLength = end - start + 1, oldIndices = new Array(vnodesLength), li=0, i=0, pos = 2147483647, matched = 0, map, lisIndices
for (i = 0; i < vnodesLength; i++) oldIndices[i] = -1
for (i = end; i >= start; i--) {
if (map == null) map = getKeyMap(old, oldStart, oldEnd + 1)
ve = vnodes[i]
if (ve != null) {
var oldIndex = map[ve.key]
if (oldIndex != null) {
pos = (oldIndex < pos) ? oldIndex : -1 // becomes -1 if nodes were re-ordered
oldIndices[i-start] = oldIndex
oe = old[oldIndex]
old[oldIndex] = null
if (oe !== ve) updateNode(parent, oe, ve, hooks, nextSibling, ns)
if (ve.dom != null) nextSibling = ve.dom
matched++
}
}
}
nextSibling = originalNextSibling
if (matched !== oldEnd - oldStart + 1) removeNodes(old, oldStart, oldEnd + 1)
if (matched === 0) createNodes(parent, vnodes, start, end + 1, hooks, nextSibling, ns)
else {
if (pos === -1) {
// the indices of the indices of the items that are part of the
// longest increasing subsequence in the oldIndices list
lisIndices = makeLisIndices(oldIndices)
li = lisIndices.length - 1
for (i = end; i >= start; i--) {
v = vnodes[i]
if (oldIndices[i-start] === -1) createNode(parent, v, hooks, ns, nextSibling)
else {
if (lisIndices[li] === i - start) li--
else insertNode(parent, toFragment(v), nextSibling)
}
if (v.dom != null) nextSibling = vnodes[i].dom
}
} else {
for (i = end; i >= start; i--) {
v = vnodes[i]
if (oldIndices[i-start] === -1) createNode(parent, v, hooks, ns, nextSibling)
if (v.dom != null) nextSibling = vnodes[i].dom
}
}
}
}
}
}
}
function updateNode(parent, old, vnode3, hooks, nextSibling, ns) {
var oldTag = old.tag, tag = vnode3.tag
if (oldTag === tag) {
vnode3.state = old.state
vnode3.events = old.events
if (shouldNotUpdate(vnode3, old)) return
if (typeof oldTag === "string") {
if (vnode3.attrs != null) {
updateLifecycle(vnode3.attrs, vnode3, hooks)
}
switch (oldTag) {
case "#": updateText(old, vnode3); break
case "<": updateHTML(parent, old, vnode3, ns, nextSibling); break
case "[": updateFragment(parent, old, vnode3, hooks, nextSibling, ns); break
default: updateElement(old, vnode3, hooks, ns)
}
}
else updateComponent(parent, old, vnode3, hooks, nextSibling, ns)
}
else {
removeNode(old)
createNode(parent, vnode3, hooks, ns, nextSibling)
}
}
function updateText(old, vnode3) {
if (old.children.toString() !== vnode3.children.toString()) {
old.dom.nodeValue = vnode3.children
}
vnode3.dom = old.dom
}
function updateHTML(parent, old, vnode3, ns, nextSibling) {
if (old.children !== vnode3.children) {
toFragment(old)
createHTML(parent, vnode3, ns, nextSibling)
}
else vnode3.dom = old.dom, vnode3.domSize = old.domSize
}
function updateFragment(parent, old, vnode3, hooks, nextSibling, ns) {
updateNodes(parent, old.children, vnode3.children, hooks, nextSibling, ns)
var domSize = 0, children3 = vnode3.children
vnode3.dom = null
if (children3 != null) {
for (var i = 0; i < children3.length; i++) {
var child = children3[i]
if (child != null && child.dom != null) {
if (vnode3.dom == null) vnode3.dom = child.dom
domSize += child.domSize || 1
}
}
if (domSize !== 1) vnode3.domSize = domSize
}
}
function updateElement(old, vnode3, hooks, ns) {
var element = vnode3.dom = old.dom
ns = getNameSpace(vnode3) || ns
if (vnode3.tag === "textarea") {
if (vnode3.attrs == null) vnode3.attrs = {}
if (vnode3.text != null) {
vnode3.attrs.value = vnode3.text //FIXME handle0 multiple children3
vnode3.text = undefined
}
}
updateAttrs(vnode3, old.attrs, vnode3.attrs, ns)
if (vnode3.attrs != null && vnode3.attrs.contenteditable != null) {
setContentEditable(vnode3)
}
else if (old.text != null && vnode3.text != null && vnode3.text !== "") {
if (old.text.toString() !== vnode3.text.toString()) old.dom.firstChild.nodeValue = vnode3.text
}
else {
if (old.text != null) old.children = [Vnode("#", undefined, undefined, old.text, undefined, old.dom.firstChild)]
if (vnode3.text != null) vnode3.children = [Vnode("#", undefined, undefined, vnode3.text, undefined, undefined)]
updateNodes(element, old.children, vnode3.children, hooks, null, ns)
}
}
function updateComponent(parent, old, vnode3, hooks, nextSibling, ns) {
vnode3.instance = Vnode.normalize(callHook.call(vnode3.state.view, vnode3))
if (vnode3.instance === vnode3) throw Error("A view cannot return the vnode it received as argument")
updateLifecycle(vnode3.state, vnode3, hooks)
if (vnode3.attrs != null) updateLifecycle(vnode3.attrs, vnode3, hooks)
if (vnode3.instance != null) {
if (old.instance == null) createNode(parent, vnode3.instance, hooks, ns, nextSibling)
else updateNode(parent, old.instance, vnode3.instance, hooks, nextSibling, ns)
vnode3.dom = vnode3.instance.dom
vnode3.domSize = vnode3.instance.domSize
}
else if (old.instance != null) {
removeNode(old.instance)
vnode3.dom = undefined
vnode3.domSize = 0
}
else {
vnode3.dom = old.dom
vnode3.domSize = old.domSize
}
}
function getKeyMap(vnodes, start, end) {
var map = Object.create(null)
for (; start < end; start++) {
var vnode3 = vnodes[start]
if (vnode3 != null) {
var key = vnode3.key
if (key != null) map[key] = start
}
}
return map
}
// Lifted from ivi https://github.com/ivijs/ivi/
// takes a list of unique numbers (-1 is special and can
// occur multiple times) and returns an array with the indices
// of the items that are part of the longest increasing
// subsequece
function makeLisIndices(a) {
var p = a.slice()
var result = []
result.push(0)
var u
var v
for (var i = 0, il = a.length; i < il; ++i) {
if (a[i] === -1) {
continue
}
var j = result[result.length - 1]
if (a[j] < a[i]) {
p[i] = j
result.push(i)
continue
}
u = 0
v = result.length - 1
while (u < v) {
var c = ((u + v) / 2) | 0 // eslint-disable-line no-bitwise
if (a[result[c]] < a[i]) {
u = c + 1
}
else {
v = c
}
}
if (a[i] < a[result[u]]) {
if (u > 0) {