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wallet-core/lib/vendor/mithril.js
Florian Dold 5c600904f5 Add copyright header to mithril.js 
The version from the official repo
(https://github.com/lhorie/mithril.js) has no license header, but its
LICENSE file has the MIT license in it.
2016-03-01 19:43:38 +01:00

2158 lines
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JavaScript
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/*
The MIT License (MIT)
Copyright (c) 2014 Leo Horie
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
*/
;(function (global, factory) { // eslint-disable-line
"use strict"
/* eslint-disable no-undef */
var m = factory(global)
if (typeof module === "object" && module != null && module.exports) {
module.exports = m
} else if (typeof define === "function" && define.amd) {
define(function () { return m })
} else {
global.m = m
}
/* eslint-enable no-undef */
})(typeof window !== "undefined" ? window : {}, function (global, undefined) { // eslint-disable-line
"use strict"
m.version = function () {
return "v0.2.2-rc.1"
}
var hasOwn = {}.hasOwnProperty
var type = {}.toString
function isFunction(object) {
return typeof object === "function"
}
function isObject(object) {
return type.call(object) === "[object Object]"
}
function isString(object) {
return type.call(object) === "[object String]"
}
var isArray = Array.isArray || function (object) {
return type.call(object) === "[object Array]"
}
function noop() {}
/* eslint-disable max-len */
var voidElements = /^(AREA|BASE|BR|COL|COMMAND|EMBED|HR|IMG|INPUT|KEYGEN|LINK|META|PARAM|SOURCE|TRACK|WBR)$/
/* eslint-enable max-len */
// caching commonly used variables
var $document, $location, $requestAnimationFrame, $cancelAnimationFrame
// self invoking function needed because of the way mocks work
function initialize(mock) {
$document = mock.document
$location = mock.location
$cancelAnimationFrame = mock.cancelAnimationFrame || mock.clearTimeout
$requestAnimationFrame = mock.requestAnimationFrame || mock.setTimeout
}
// testing API
m.deps = function (mock) {
initialize(global = mock || window)
return global
}
m.deps(global)
/**
* @typedef {String} Tag
* A string that looks like -> div.classname#id[param=one][param2=two]
* Which describes a DOM node
*/
function parseTagAttrs(cell, tag) {
var classes = []
var parser = /(?:(^|#|\.)([^#\.\[\]]+))|(\[.+?\])/g
var match
while ((match = parser.exec(tag))) {
if (match[1] === "" && match[2]) {
cell.tag = match[2]
} else if (match[1] === "#") {
cell.attrs.id = match[2]
} else if (match[1] === ".") {
classes.push(match[2])
} else if (match[3][0] === "[") {
var pair = /\[(.+?)(?:=("|'|)(.*?)\2)?\]/.exec(match[3])
cell.attrs[pair[1]] = pair[3] || (pair[2] ? "" : true)
}
}
return classes
}
function getVirtualChildren(args, hasAttrs) {
var children = hasAttrs ? args.slice(1) : args
if (children.length === 1 && isArray(children[0])) {
return children[0]
} else {
return children
}
}
function assignAttrs(target, attrs, classes) {
var classAttr = "class" in attrs ? "class" : "className"
for (var attrName in attrs) {
if (hasOwn.call(attrs, attrName)) {
if (attrName === classAttr &&
attrs[attrName] != null &&
attrs[attrName] !== "") {
classes.push(attrs[attrName])
// create key in correct iteration order
target[attrName] = ""
} else {
target[attrName] = attrs[attrName]
}
}
}
if (classes.length) target[classAttr] = classes.join(" ")
}
/**
*
* @param {Tag} The DOM node tag
* @param {Object=[]} optional key-value pairs to be mapped to DOM attrs
* @param {...mNode=[]} Zero or more Mithril child nodes. Can be an array,
* or splat (optional)
*/
function m(tag, pairs) {
for (var args = [], i = 1; i < arguments.length; i++) {
args[i - 1] = arguments[i]
}
if (isObject(tag)) return parameterize(tag, args)
if (!isString(tag)) {
throw new Error("selector in m(selector, attrs, children) should " +
"be a string")
}
var hasAttrs = pairs != null && isObject(pairs) &&
!("tag" in pairs || "view" in pairs || "subtree" in pairs)
var attrs = hasAttrs ? pairs : {}
var cell = {
tag: "div",
attrs: {},
children: getVirtualChildren(args, hasAttrs)
}
assignAttrs(cell.attrs, attrs, parseTagAttrs(cell, tag))
return cell
}
function forEach(list, f) {
for (var i = 0; i < list.length && !f(list[i], i++);) {
// function called in condition
}
}
function forKeys(list, f) {
forEach(list, function (attrs, i) {
return (attrs = attrs && attrs.attrs) &&
attrs.key != null &&
f(attrs, i)
})
}
// This function was causing deopts in Chrome.
function dataToString(data) {
// data.toString() might throw or return null if data is the return
// value of Console.log in some versions of Firefox (behavior depends on
// version)
try {
if (data != null && data.toString() != null) return data
} catch (e) {
// silently ignore errors
}
return ""
}
// This function was causing deopts in Chrome.
function injectTextNode(parentElement, first, index, data) {
try {
insertNode(parentElement, first, index)
first.nodeValue = data
} catch (e) {
// IE erroneously throws error when appending an empty text node
// after a null
}
}
function flatten(list) {
// recursively flatten array
for (var i = 0; i < list.length; i++) {
if (isArray(list[i])) {
list = list.concat.apply([], list)
// check current index again and flatten until there are no more
// nested arrays at that index
i--
}
}
return list
}
function insertNode(parentElement, node, index) {
parentElement.insertBefore(node,
parentElement.childNodes[index] || null)
}
var DELETION = 1
var INSERTION = 2
var MOVE = 3
function handleKeysDiffer(data, existing, cached, parentElement) {
forKeys(data, function (key, i) {
existing[key = key.key] = existing[key] ? {
action: MOVE,
index: i,
from: existing[key].index,
element: cached.nodes[existing[key].index] ||
$document.createElement("div")
} : {action: INSERTION, index: i}
})
var actions = []
for (var prop in existing) if (hasOwn.call(existing, prop)) {
actions.push(existing[prop])
}
var changes = actions.sort(sortChanges)
var newCached = new Array(cached.length)
newCached.nodes = cached.nodes.slice()
forEach(changes, function (change) {
var index = change.index
if (change.action === DELETION) {
clear(cached[index].nodes, cached[index])
newCached.splice(index, 1)
}
if (change.action === INSERTION) {
var dummy = $document.createElement("div")
dummy.key = data[index].attrs.key
insertNode(parentElement, dummy, index)
newCached.splice(index, 0, {
attrs: {key: data[index].attrs.key},
nodes: [dummy]
})
newCached.nodes[index] = dummy
}
if (change.action === MOVE) {
var changeElement = change.element
var maybeChanged = parentElement.childNodes[index]
if (maybeChanged !== changeElement && changeElement !== null) {
parentElement.insertBefore(changeElement,
maybeChanged || null)
}
newCached[index] = cached[change.from]
newCached.nodes[index] = changeElement
}
})
return newCached
}
function diffKeys(data, cached, existing, parentElement) {
var keysDiffer = data.length !== cached.length
if (!keysDiffer) {
forKeys(data, function (attrs, i) {
var cachedCell = cached[i]
return keysDiffer = cachedCell &&
cachedCell.attrs &&
cachedCell.attrs.key !== attrs.key
})
}
if (keysDiffer) {
return handleKeysDiffer(data, existing, cached, parentElement)
} else {
return cached
}
}
function diffArray(data, cached, nodes) {
// diff the array itself
// update the list of DOM nodes by collecting the nodes from each item
forEach(data, function (_, i) {
if (cached[i] != null) nodes.push.apply(nodes, cached[i].nodes)
})
// remove items from the end of the array if the new array is shorter
// than the old one. if errors ever happen here, the issue is most
// likely a bug in the construction of the `cached` data structure
// somewhere earlier in the program
forEach(cached.nodes, function (node, i) {
if (node.parentNode != null && nodes.indexOf(node) < 0) {
clear([node], [cached[i]])
}
})
if (data.length < cached.length) cached.length = data.length
cached.nodes = nodes
}
function buildArrayKeys(data) {
var guid = 0
forKeys(data, function () {
forEach(data, function (attrs) {
if ((attrs = attrs && attrs.attrs) && attrs.key == null) {
attrs.key = "__mithril__" + guid++
}
})
return 1
})
}
function isDifferentEnough(data, cached, dataAttrKeys) {
if (data.tag !== cached.tag) return true
if (dataAttrKeys.sort().join() !==
Object.keys(cached.attrs).sort().join()) {
return true
}
if (data.attrs.id !== cached.attrs.id) {
return true
}
if (data.attrs.key !== cached.attrs.key) {
return true
}
if (m.redraw.strategy() === "all") {
return !cached.configContext || cached.configContext.retain !== true
}
if (m.redraw.strategy() === "diff") {
return cached.configContext && cached.configContext.retain === false
}
return false
}
function maybeRecreateObject(data, cached, dataAttrKeys) {
// if an element is different enough from the one in cache, recreate it
if (isDifferentEnough(data, cached, dataAttrKeys)) {
if (cached.nodes.length) clear(cached.nodes)
if (cached.configContext &&
isFunction(cached.configContext.onunload)) {
cached.configContext.onunload()
}
if (cached.controllers) {
forEach(cached.controllers, function (controller) {
if (controller.onunload) controller.onunload({preventDefault: noop});
});
}
}
}
function getObjectNamespace(data, namespace) {
if (data.attrs.xmlns) return data.attrs.xmlns
if (data.tag === "svg") return "http://www.w3.org/2000/svg"
if (data.tag === "math") return "http://www.w3.org/1998/Math/MathML"
return namespace
}
var pendingRequests = 0
m.startComputation = function () { pendingRequests++ }
m.endComputation = function () {
if (pendingRequests > 1) {
pendingRequests--
} else {
pendingRequests = 0
m.redraw()
}
}
function unloadCachedControllers(cached, views, controllers) {
if (controllers.length) {
cached.views = views
cached.controllers = controllers
forEach(controllers, function (controller) {
if (controller.onunload && controller.onunload.$old) {
controller.onunload = controller.onunload.$old
}
if (pendingRequests && controller.onunload) {
var onunload = controller.onunload
controller.onunload = noop
controller.onunload.$old = onunload
}
})
}
}
function scheduleConfigsToBeCalled(configs, data, node, isNew, cached) {
// schedule configs to be called. They are called after `build` finishes
// running
if (isFunction(data.attrs.config)) {
var context = cached.configContext = cached.configContext || {}
// bind
configs.push(function () {
return data.attrs.config.call(data, node, !isNew, context,
cached)
})
}
}
function buildUpdatedNode(
cached,
data,
editable,
hasKeys,
namespace,
views,
configs,
controllers
) {
var node = cached.nodes[0]
if (hasKeys) {
setAttributes(node, data.tag, data.attrs, cached.attrs, namespace)
}
cached.children = build(
node,
data.tag,
undefined,
undefined,
data.children,
cached.children,
false,
0,
data.attrs.contenteditable ? node : editable,
namespace,
configs
)
cached.nodes.intact = true
if (controllers.length) {
cached.views = views
cached.controllers = controllers
}
return node
}
function handleNonexistentNodes(data, parentElement, index) {
var nodes
if (data.$trusted) {
nodes = injectHTML(parentElement, index, data)
} else {
nodes = [$document.createTextNode(data)]
if (!parentElement.nodeName.match(voidElements)) {
insertNode(parentElement, nodes[0], index)
}
}
var cached
if (typeof data === "string" ||
typeof data === "number" ||
typeof data === "boolean") {
cached = new data.constructor(data)
} else {
cached = data
}
cached.nodes = nodes
return cached
}
function reattachNodes(
data,
cached,
parentElement,
editable,
index,
parentTag
) {
var nodes = cached.nodes
if (!editable || editable !== $document.activeElement) {
if (data.$trusted) {
clear(nodes, cached)
nodes = injectHTML(parentElement, index, data)
} else if (parentTag === "textarea") {
// <textarea> uses `value` instead of `nodeValue`.
parentElement.value = data
} else if (editable) {
// contenteditable nodes use `innerHTML` instead of `nodeValue`.
editable.innerHTML = data
} else {
// was a trusted string
if (nodes[0].nodeType === 1 || nodes.length > 1 ||
(nodes[0].nodeValue.trim &&
!nodes[0].nodeValue.trim())) {
clear(cached.nodes, cached)
nodes = [$document.createTextNode(data)]
}
injectTextNode(parentElement, nodes[0], index, data)
}
}
cached = new data.constructor(data)
cached.nodes = nodes
return cached
}
function handleTextNode(
cached,
data,
index,
parentElement,
shouldReattach,
editable,
parentTag
) {
if (!cached.nodes.length) {
return handleNonexistentNodes(data, parentElement, index)
} else if (cached.valueOf() !== data.valueOf() || shouldReattach) {
return reattachNodes(data, cached, parentElement, editable, index,
parentTag)
} else {
return (cached.nodes.intact = true, cached)
}
}
function getSubArrayCount(item) {
if (item.$trusted) {
// fix offset of next element if item was a trusted string w/ more
// than one html element
// the first clause in the regexp matches elements
// the second clause (after the pipe) matches text nodes
var match = item.match(/<[^\/]|\>\s*[^<]/g)
if (match != null) return match.length
} else if (isArray(item)) {
return item.length
}
return 1
}
function buildArray(
data,
cached,
parentElement,
index,
parentTag,
shouldReattach,
editable,
namespace,
configs
) {
data = flatten(data)
var nodes = []
var intact = cached.length === data.length
var subArrayCount = 0
// keys algorithm: sort elements without recreating them if keys are
// present
//
// 1) create a map of all existing keys, and mark all for deletion
// 2) add new keys to map and mark them for addition
// 3) if key exists in new list, change action from deletion to a move
// 4) for each key, handle its corresponding action as marked in
// previous steps
var existing = {}
var shouldMaintainIdentities = false
forKeys(cached, function (attrs, i) {
shouldMaintainIdentities = true
existing[cached[i].attrs.key] = {action: DELETION, index: i}
})
buildArrayKeys(data)
if (shouldMaintainIdentities) {
cached = diffKeys(data, cached, existing, parentElement)
}
// end key algorithm
var cacheCount = 0
// faster explicitly written
for (var i = 0, len = data.length; i < len; i++) {
// diff each item in the array
var item = build(
parentElement,
parentTag,
cached,
index,
data[i],
cached[cacheCount],
shouldReattach,
index + subArrayCount || subArrayCount,
editable,
namespace,
configs)
if (item !== undefined) {
intact = intact && item.nodes.intact
subArrayCount += getSubArrayCount(item)
cached[cacheCount++] = item
}
}
if (!intact) diffArray(data, cached, nodes)
return cached
}
function makeCache(data, cached, index, parentIndex, parentCache) {
if (cached != null) {
if (type.call(cached) === type.call(data)) return cached
if (parentCache && parentCache.nodes) {
var offset = index - parentIndex
var end = offset + (isArray(data) ? data : cached.nodes).length
clear(
parentCache.nodes.slice(offset, end),
parentCache.slice(offset, end))
} else if (cached.nodes) {
clear(cached.nodes, cached)
}
}
cached = new data.constructor()
// if constructor creates a virtual dom element, use a blank object as
// the base cached node instead of copying the virtual el (#277)
if (cached.tag) cached = {}
cached.nodes = []
return cached
}
function constructNode(data, namespace) {
if (data.attrs.is) {
if (namespace == null) {
return $document.createElement(data.tag, data.attrs.is)
} else {
return $document.createElementNS(namespace, data.tag,
data.attrs.is)
}
} else if (namespace == null) {
return $document.createElement(data.tag)
} else {
return $document.createElementNS(namespace, data.tag)
}
}
function constructAttrs(data, node, namespace, hasKeys) {
if (hasKeys) {
return setAttributes(node, data.tag, data.attrs, {}, namespace)
} else {
return data.attrs
}
}
function constructChildren(
data,
node,
cached,
editable,
namespace,
configs
) {
if (data.children != null && data.children.length > 0) {
return build(
node,
data.tag,
undefined,
undefined,
data.children,
cached.children,
true,
0,
data.attrs.contenteditable ? node : editable,
namespace,
configs)
} else {
return data.children
}
}
function reconstructCached(
data,
attrs,
children,
node,
namespace,
views,
controllers
) {
var cached = {
tag: data.tag,
attrs: attrs,
children: children,
nodes: [node]
}
unloadCachedControllers(cached, views, controllers)
if (cached.children && !cached.children.nodes) {
cached.children.nodes = []
}
// edge case: setting value on <select> doesn't work before children
// exist, so set it again after children have been created
if (data.tag === "select" && "value" in data.attrs) {
setAttributes(node, data.tag, {value: data.attrs.value}, {},
namespace)
}
return cached
}
function getController(views, view, cachedControllers, controller) {
var controllerIndex
if (m.redraw.strategy() === "diff" && views) {
controllerIndex = views.indexOf(view)
} else {
controllerIndex = -1
}
if (controllerIndex > -1) {
return cachedControllers[controllerIndex]
} else if (isFunction(controller)) {
return new controller()
} else {
return {}
}
}
var unloaders = []
function updateLists(views, controllers, view, controller) {
if (controller.onunload != null) {
unloaders.push({
controller: controller,
handler: controller.onunload
})
}
views.push(view)
controllers.push(controller)
}
var forcing = false
function checkView(data, view, cached, cachedControllers, controllers, views) {
var controller = getController(cached.views, view, cachedControllers, data.controller)
var key = data && data.attrs && data.attrs.key
data = pendingRequests === 0 || forcing || cachedControllers && cachedControllers.indexOf(controller) > -1 ? data.view(controller) : {tag: "placeholder"}
if (data.subtree === "retain") return data;
data.attrs = data.attrs || {}
data.attrs.key = key
updateLists(views, controllers, view, controller)
return data
}
function markViews(data, cached, views, controllers) {
var cachedControllers = cached && cached.controllers
while (data.view != null) {
data = checkView(
data,
data.view.$original || data.view,
cached,
cachedControllers,
controllers,
views)
}
return data
}
function buildObject( // eslint-disable-line max-statements
data,
cached,
editable,
parentElement,
index,
shouldReattach,
namespace,
configs
) {
var views = []
var controllers = []
data = markViews(data, cached, views, controllers)
if (data.subtree === "retain") return cached
if (!data.tag && controllers.length) {
throw new Error("Component template must return a virtual " +
"element, not an array, string, etc.")
}
data.attrs = data.attrs || {}
cached.attrs = cached.attrs || {}
var dataAttrKeys = Object.keys(data.attrs)
var hasKeys = dataAttrKeys.length > ("key" in data.attrs ? 1 : 0)
maybeRecreateObject(data, cached, dataAttrKeys)
if (!isString(data.tag)) return
var isNew = cached.nodes.length === 0
namespace = getObjectNamespace(data, namespace)
var node
if (isNew) {
node = constructNode(data, namespace)
// set attributes first, then create children
var attrs = constructAttrs(data, node, namespace, hasKeys)
var children = constructChildren(data, node, cached, editable,
namespace, configs)
cached = reconstructCached(
data,
attrs,
children,
node,
namespace,
views,
controllers)
} else {
node = buildUpdatedNode(
cached,
data,
editable,
hasKeys,
namespace,
views,
configs,
controllers)
}
if (isNew || shouldReattach === true && node != null) {
insertNode(parentElement, node, index)
}
// The configs are called after `build` finishes running
scheduleConfigsToBeCalled(configs, data, node, isNew, cached)
return cached
}
function build(
parentElement,
parentTag,
parentCache,
parentIndex,
data,
cached,
shouldReattach,
index,
editable,
namespace,
configs
) {
/*
* `build` is a recursive function that manages creation/diffing/removal
* of DOM elements based on comparison between `data` and `cached` the
* diff algorithm can be summarized as this:
*
* 1 - compare `data` and `cached`
* 2 - if they are different, copy `data` to `cached` and update the DOM
* based on what the difference is
* 3 - recursively apply this algorithm for every array and for the
* children of every virtual element
*
* The `cached` data structure is essentially the same as the previous
* redraw's `data` data structure, with a few additions:
* - `cached` always has a property called `nodes`, which is a list of
* DOM elements that correspond to the data represented by the
* respective virtual element
* - in order to support attaching `nodes` as a property of `cached`,
* `cached` is *always* a non-primitive object, i.e. if the data was
* a string, then cached is a String instance. If data was `null` or
* `undefined`, cached is `new String("")`
* - `cached also has a `configContext` property, which is the state
* storage object exposed by config(element, isInitialized, context)
* - when `cached` is an Object, it represents a virtual element; when
* it's an Array, it represents a list of elements; when it's a
* String, Number or Boolean, it represents a text node
*
* `parentElement` is a DOM element used for W3C DOM API calls
* `parentTag` is only used for handling a corner case for textarea
* values
* `parentCache` is used to remove nodes in some multi-node cases
* `parentIndex` and `index` are used to figure out the offset of nodes.
* They're artifacts from before arrays started being flattened and are
* likely refactorable
* `data` and `cached` are, respectively, the new and old nodes being
* diffed
* `shouldReattach` is a flag indicating whether a parent node was
* recreated (if so, and if this node is reused, then this node must
* reattach itself to the new parent)
* `editable` is a flag that indicates whether an ancestor is
* contenteditable
* `namespace` indicates the closest HTML namespace as it cascades down
* from an ancestor
* `configs` is a list of config functions to run after the topmost
* `build` call finishes running
*
* there's logic that relies on the assumption that null and undefined
* data are equivalent to empty strings
* - this prevents lifecycle surprises from procedural helpers that mix
* implicit and explicit return statements (e.g.
* function foo() {if (cond) return m("div")}
* - it simplifies diffing code
*/
data = dataToString(data)
if (data.subtree === "retain") return cached
cached = makeCache(data, cached, index, parentIndex, parentCache)
if (isArray(data)) {
return buildArray(
data,
cached,
parentElement,
index,
parentTag,
shouldReattach,
editable,
namespace,
configs)
} else if (data != null && isObject(data)) {
return buildObject(
data,
cached,
editable,
parentElement,
index,
shouldReattach,
namespace,
configs)
} else if (!isFunction(data)) {
return handleTextNode(
cached,
data,
index,
parentElement,
shouldReattach,
editable,
parentTag)
} else {
return cached
}
}
function sortChanges(a, b) {
return a.action - b.action || a.index - b.index
}
function copyStyleAttrs(node, dataAttr, cachedAttr) {
for (var rule in dataAttr) if (hasOwn.call(dataAttr, rule)) {
if (cachedAttr == null || cachedAttr[rule] !== dataAttr[rule]) {
node.style[rule] = dataAttr[rule]
}
}
for (rule in cachedAttr) if (hasOwn.call(cachedAttr, rule)) {
if (!hasOwn.call(dataAttr, rule)) node.style[rule] = ""
}
}
function shouldUseSetAttribute(attrName) {
return attrName !== "list" &&
attrName !== "style" &&
attrName !== "form" &&
attrName !== "type" &&
attrName !== "width" &&
attrName !== "height"
}
function setSingleAttr(
node,
attrName,
dataAttr,
cachedAttr,
tag,
namespace
) {
if (attrName === "config" || attrName === "key") {
// `config` isn't a real attribute, so ignore it
return true
} else if (isFunction(dataAttr) && attrName.slice(0, 2) === "on") {
// hook event handlers to the auto-redrawing system
node[attrName] = autoredraw(dataAttr, node)
} else if (attrName === "style" && dataAttr != null &&
isObject(dataAttr)) {
// handle `style: {...}`
copyStyleAttrs(node, dataAttr, cachedAttr)
} else if (namespace != null) {
// handle SVG
if (attrName === "href") {
node.setAttributeNS("http://www.w3.org/1999/xlink",
"href", dataAttr)
} else {
node.setAttribute(
attrName === "className" ? "class" : attrName,
dataAttr)
}
} else if (attrName in node && shouldUseSetAttribute(attrName)) {
// handle cases that are properties (but ignore cases where we
// should use setAttribute instead)
//
// - list and form are typically used as strings, but are DOM
// element references in js
//
// - when using CSS selectors (e.g. `m("[style='']")`), style is
// used as a string, but it's an object in js
//
// #348 don't set the value if not needed - otherwise, cursor
// placement breaks in Chrome
try {
if (tag !== "input" || node[attrName] !== dataAttr) {
node[attrName] = dataAttr
}
} catch (e) {
node.setAttribute(attrName, dataAttr)
}
}
else node.setAttribute(attrName, dataAttr)
}
function trySetAttr(
node,
attrName,
dataAttr,
cachedAttr,
cachedAttrs,
tag,
namespace
) {
if (!(attrName in cachedAttrs) || (cachedAttr !== dataAttr)) {
cachedAttrs[attrName] = dataAttr
try {
return setSingleAttr(
node,
attrName,
dataAttr,
cachedAttr,
tag,
namespace)
} catch (e) {
// swallow IE's invalid argument errors to mimic HTML's
// fallback-to-doing-nothing-on-invalid-attributes behavior
if (e.message.indexOf("Invalid argument") < 0) throw e
}
} else if (attrName === "value" && tag === "input" &&
node.value !== dataAttr) {
// #348 dataAttr may not be a string, so use loose comparison
node.value = dataAttr
}
}
function setAttributes(node, tag, dataAttrs, cachedAttrs, namespace) {
for (var attrName in dataAttrs) if (hasOwn.call(dataAttrs, attrName)) {
if (trySetAttr(
node,
attrName,
dataAttrs[attrName],
cachedAttrs[attrName],
cachedAttrs,
tag,
namespace)) {
continue
}
}
return cachedAttrs
}
function clear(nodes, cached) {
for (var i = nodes.length - 1; i > -1; i--) {
if (nodes[i] && nodes[i].parentNode) {
try {
nodes[i].parentNode.removeChild(nodes[i])
} catch (e) {
/* eslint-disable max-len */
// ignore if this fails due to order of events (see
// http://stackoverflow.com/questions/21926083/failed-to-execute-removechild-on-node)
/* eslint-enable max-len */
}
cached = [].concat(cached)
if (cached[i]) unload(cached[i])
}
}
// release memory if nodes is an array. This check should fail if nodes
// is a NodeList (see loop above)
if (nodes.length) {
nodes.length = 0
}
}
function unload(cached) {
if (cached.configContext && isFunction(cached.configContext.onunload)) {
cached.configContext.onunload()
cached.configContext.onunload = null
}
if (cached.controllers) {
forEach(cached.controllers, function (controller) {
if (isFunction(controller.onunload)) {
controller.onunload({preventDefault: noop})
}
})
}
if (cached.children) {
if (isArray(cached.children)) forEach(cached.children, unload)
else if (cached.children.tag) unload(cached.children)
}
}
function appendTextFragment(parentElement, data) {
try {
parentElement.appendChild(
$document.createRange().createContextualFragment(data))
} catch (e) {
parentElement.insertAdjacentHTML("beforeend", data)
}
}
function injectHTML(parentElement, index, data) {
var nextSibling = parentElement.childNodes[index]
if (nextSibling) {
var isElement = nextSibling.nodeType !== 1
var placeholder = $document.createElement("span")
if (isElement) {
parentElement.insertBefore(placeholder, nextSibling || null)
placeholder.insertAdjacentHTML("beforebegin", data)
parentElement.removeChild(placeholder)
} else {
nextSibling.insertAdjacentHTML("beforebegin", data)
}
} else {
appendTextFragment(parentElement, data)
}
var nodes = []
while (parentElement.childNodes[index] !== nextSibling) {
nodes.push(parentElement.childNodes[index])
index++
}
return nodes
}
function autoredraw(callback, object) {
return function (e) {
e = e || event
m.redraw.strategy("diff")
m.startComputation()
try {
return callback.call(object, e)
} finally {
endFirstComputation()
}
}
}
var html
var documentNode = {
appendChild: function (node) {
if (html === undefined) html = $document.createElement("html")
if ($document.documentElement &&
$document.documentElement !== node) {
$document.replaceChild(node, $document.documentElement)
} else {
$document.appendChild(node)
}
this.childNodes = $document.childNodes
},
insertBefore: function (node) {
this.appendChild(node)
},
childNodes: []
}
var nodeCache = []
var cellCache = {}
m.render = function (root, cell, forceRecreation) {
if (!root) {
throw new Error("Ensure the DOM element being passed to " +
"m.route/m.mount/m.render is not undefined.")
}
var configs = []
var id = getCellCacheKey(root)
var isDocumentRoot = root === $document
var node
if (isDocumentRoot || root === $document.documentElement) {
node = documentNode
} else {
node = root
}
if (isDocumentRoot && cell.tag !== "html") {
cell = {tag: "html", attrs: {}, children: cell}
}
if (cellCache[id] === undefined) clear(node.childNodes)
if (forceRecreation === true) reset(root)
cellCache[id] = build(
node,
null,
undefined,
undefined,
cell,
cellCache[id],
false,
0,
null,
undefined,
configs)
forEach(configs, function (config) { config() })
}
function getCellCacheKey(element) {
var index = nodeCache.indexOf(element)
return index < 0 ? nodeCache.push(element) - 1 : index
}
m.trust = function (value) {
value = new String(value) // eslint-disable-line no-new-wrappers
value.$trusted = true
return value
}
function gettersetter(store) {
function prop() {
if (arguments.length) store = arguments[0]
return store
}
prop.toJSON = function () {
return store
}
return prop
}
m.prop = function (store) {
if ((store != null && isObject(store) || isFunction(store)) &&
isFunction(store.then)) {
return propify(store)
}
return gettersetter(store)
}
var roots = []
var components = []
var controllers = []
var lastRedrawId = null
var lastRedrawCallTime = 0
var computePreRedrawHook = null
var computePostRedrawHook = null
var topComponent
var FRAME_BUDGET = 16 // 60 frames per second = 1 call per 16 ms
function parameterize(component, args) {
function controller() {
/* eslint-disable no-invalid-this */
return (component.controller || noop).apply(this, args) || this
/* eslint-enable no-invalid-this */
}
if (component.controller) {
controller.prototype = component.controller.prototype
}
function view(ctrl) {
var currentArgs = [ctrl].concat(args)
for (var i = 1; i < arguments.length; i++) {
currentArgs.push(arguments[i])
}
return component.view.apply(component, currentArgs)
}
view.$original = component.view
var output = {controller: controller, view: view}
if (args[0] && args[0].key != null) output.attrs = {key: args[0].key}
return output
}
m.component = function (component) {
for (var args = [], i = 1; i < arguments.length; i++) {
args.push(arguments[i])
}
return parameterize(component, args)
}
function checkPrevented(component, root, index, isPrevented) {
if (!isPrevented) {
m.redraw.strategy("all")
m.startComputation()
roots[index] = root
var currentComponent
if (component) {
currentComponent = topComponent = component
} else {
currentComponent = topComponent = component = {controller: noop}
}
var controller = new (component.controller || noop)()
// controllers may call m.mount recursively (via m.route redirects,
// for example)
// this conditional ensures only the last recursive m.mount call is
// applied
if (currentComponent === topComponent) {
controllers[index] = controller
components[index] = component
}
endFirstComputation()
if (component === null) {
removeRootElement(root, index)
}
return controllers[index]
} else if (component == null) {
removeRootElement(root, index)
}
}
m.mount = m.module = function (root, component) {
if (!root) {
throw new Error("Please ensure the DOM element exists before " +
"rendering a template into it.")
}
var index = roots.indexOf(root)
if (index < 0) index = roots.length
var isPrevented = false
var event = {
preventDefault: function () {
isPrevented = true
computePreRedrawHook = computePostRedrawHook = null
}
}
forEach(unloaders, function (unloader) {
unloader.handler.call(unloader.controller, event)
unloader.controller.onunload = null
})
if (isPrevented) {
forEach(unloaders, function (unloader) {
unloader.controller.onunload = unloader.handler
})
} else {
unloaders = []
}
if (controllers[index] && isFunction(controllers[index].onunload)) {
controllers[index].onunload(event)
}
return checkPrevented(component, root, index, isPrevented)
}
function removeRootElement(root, index) {
roots.splice(index, 1)
controllers.splice(index, 1)
components.splice(index, 1)
reset(root)
nodeCache.splice(getCellCacheKey(root), 1)
}
var redrawing = false
m.redraw = function (force) {
if (redrawing) return
redrawing = true
if (force) forcing = true
try {
// lastRedrawId is a positive number if a second redraw is requested
// before the next animation frame
// lastRedrawID is null if it's the first redraw and not an event
// handler
if (lastRedrawId && !force) {
// when setTimeout: only reschedule redraw if time between now
// and previous redraw is bigger than a frame, otherwise keep
// currently scheduled timeout
// when rAF: always reschedule redraw
if ($requestAnimationFrame === global.requestAnimationFrame ||
new Date() - lastRedrawCallTime > FRAME_BUDGET) {
if (lastRedrawId > 0) $cancelAnimationFrame(lastRedrawId)
lastRedrawId = $requestAnimationFrame(redraw, FRAME_BUDGET)
}
} else {
redraw()
lastRedrawId = $requestAnimationFrame(function () {
lastRedrawId = null
}, FRAME_BUDGET)
}
} finally {
redrawing = forcing = false
}
}
m.redraw.strategy = m.prop()
function redraw() {
if (computePreRedrawHook) {
computePreRedrawHook()
computePreRedrawHook = null
}
forEach(roots, function (root, i) {
var component = components[i]
if (controllers[i]) {
var args = [controllers[i]]
m.render(root,
component.view ? component.view(controllers[i], args) : "")
}
})
// after rendering within a routed context, we need to scroll back to
// the top, and fetch the document title for history.pushState
if (computePostRedrawHook) {
computePostRedrawHook()
computePostRedrawHook = null
}
lastRedrawId = null
lastRedrawCallTime = new Date()
m.redraw.strategy("diff")
}
function endFirstComputation() {
if (m.redraw.strategy() === "none") {
pendingRequests--
m.redraw.strategy("diff")
} else {
m.endComputation()
}
}
m.withAttr = function (prop, withAttrCallback, callbackThis) {
return function (e) {
e = e || event
/* eslint-disable no-invalid-this */
var currentTarget = e.currentTarget || this
var _this = callbackThis || this
/* eslint-enable no-invalid-this */
var target = prop in currentTarget ?
currentTarget[prop] :
currentTarget.getAttribute(prop)
withAttrCallback.call(_this, target)
}
}
// routing
var modes = {pathname: "", hash: "#", search: "?"}
var redirect = noop
var isDefaultRoute = false
var routeParams, currentRoute
m.route = function (root, arg1, arg2, vdom) { // eslint-disable-line
// m.route()
if (arguments.length === 0) return currentRoute
// m.route(el, defaultRoute, routes)
if (arguments.length === 3 && isString(arg1)) {
redirect = function (source) {
var path = currentRoute = normalizeRoute(source)
if (!routeByValue(root, arg2, path)) {
if (isDefaultRoute) {
throw new Error("Ensure the default route matches " +
"one of the routes defined in m.route")
}
isDefaultRoute = true
m.route(arg1, true)
isDefaultRoute = false
}
}
var listener = m.route.mode === "hash" ?
"onhashchange" :
"onpopstate"
global[listener] = function () {
var path = $location[m.route.mode]
if (m.route.mode === "pathname") path += $location.search
if (currentRoute !== normalizeRoute(path)) redirect(path)
}
computePreRedrawHook = setScroll
global[listener]()
return
}
// config: m.route
if (root.addEventListener || root.attachEvent) {
var base = m.route.mode !== "pathname" ? $location.pathname : ""
root.href = base + modes[m.route.mode] + vdom.attrs.href
if (root.addEventListener) {
root.removeEventListener("click", routeUnobtrusive)
root.addEventListener("click", routeUnobtrusive)
} else {
root.detachEvent("onclick", routeUnobtrusive)
root.attachEvent("onclick", routeUnobtrusive)
}
return
}
// m.route(route, params, shouldReplaceHistoryEntry)
if (isString(root)) {
var oldRoute = currentRoute
currentRoute = root
var args = arg1 || {}
var queryIndex = currentRoute.indexOf("?")
var params
if (queryIndex > -1) {
params = parseQueryString(currentRoute.slice(queryIndex + 1))
} else {
params = {}
}
for (var i in args) if (hasOwn.call(args, i)) {
params[i] = args[i]
}
var querystring = buildQueryString(params)
var currentPath
if (queryIndex > -1) {
currentPath = currentRoute.slice(0, queryIndex)
} else {
currentPath = currentRoute
}
if (querystring) {
currentRoute = currentPath +
(currentPath.indexOf("?") === -1 ? "?" : "&") +
querystring
}
var replaceHistory =
(arguments.length === 3 ? arg2 : arg1) === true ||
oldRoute === root
if (global.history.pushState) {
var method = replaceHistory ? "replaceState" : "pushState"
computePreRedrawHook = setScroll
computePostRedrawHook = function () {
global.history[method](null, $document.title,
modes[m.route.mode] + currentRoute)
}
redirect(modes[m.route.mode] + currentRoute)
} else {
$location[m.route.mode] = currentRoute
redirect(modes[m.route.mode] + currentRoute)
}
}
}
m.route.param = function (key) {
if (!routeParams) {
throw new Error("You must call m.route(element, defaultRoute, " +
"routes) before calling m.route.param()")
}
if (!key) {
return routeParams
}
return routeParams[key]
}
m.route.mode = "search"
function normalizeRoute(route) {
return route.slice(modes[m.route.mode].length)
}
function routeByValue(root, router, path) {
routeParams = {}
var queryStart = path.indexOf("?")
if (queryStart !== -1) {
routeParams = parseQueryString(
path.substr(queryStart + 1, path.length))
path = path.substr(0, queryStart)
}
// Get all routes and check if there's
// an exact match for the current path
var keys = Object.keys(router)
var index = keys.indexOf(path)
if (index !== -1){
m.mount(root, router[keys [index]])
return true
}
for (var route in router) if (hasOwn.call(router, route)) {
if (route === path) {
m.mount(root, router[route])
return true
}
var matcher = new RegExp("^" + route
.replace(/:[^\/]+?\.{3}/g, "(.*?)")
.replace(/:[^\/]+/g, "([^\\/]+)") + "\/?$")
if (matcher.test(path)) {
/* eslint-disable no-loop-func */
path.replace(matcher, function () {
var keys = route.match(/:[^\/]+/g) || []
var values = [].slice.call(arguments, 1, -2)
forEach(keys, function (key, i) {
routeParams[key.replace(/:|\./g, "")] =
decodeURIComponent(values[i])
})
m.mount(root, router[route])
})
/* eslint-enable no-loop-func */
return true
}
}
}
function routeUnobtrusive(e) {
e = e || event
if (e.ctrlKey || e.metaKey || e.shiftKey || e.which === 2) return
if (e.preventDefault) {
e.preventDefault()
} else {
e.returnValue = false
}
var currentTarget = e.currentTarget || e.srcElement
var args
if (m.route.mode === "pathname" && currentTarget.search) {
args = parseQueryString(currentTarget.search.slice(1))
} else {
args = {}
}
while (currentTarget && !/a/i.test(currentTarget.nodeName)) {
currentTarget = currentTarget.parentNode
}
// clear pendingRequests because we want an immediate route change
pendingRequests = 0
m.route(currentTarget[m.route.mode]
.slice(modes[m.route.mode].length), args)
}
function setScroll() {
if (m.route.mode !== "hash" && $location.hash) {
$location.hash = $location.hash
} else {
global.scrollTo(0, 0)
}
}
function buildQueryString(object, prefix) {
var duplicates = {}
var str = []
for (var prop in object) if (hasOwn.call(object, prop)) {
var key = prefix ? prefix + "[" + prop + "]" : prop
var value = object[prop]
if (value === null) {
str.push(encodeURIComponent(key))
} else if (isObject(value)) {
str.push(buildQueryString(value, key))
} else if (isArray(value)) {
var keys = []
duplicates[key] = duplicates[key] || {}
/* eslint-disable no-loop-func */
forEach(value, function (item) {
/* eslint-enable no-loop-func */
if (!duplicates[key][item]) {
duplicates[key][item] = true
keys.push(encodeURIComponent(key) + "=" +
encodeURIComponent(item))
}
})
str.push(keys.join("&"))
} else if (value !== undefined) {
str.push(encodeURIComponent(key) + "=" +
encodeURIComponent(value))
}
}
return str.join("&")
}
function parseQueryString(str) {
if (str === "" || str == null) return {}
if (str.charAt(0) === "?") str = str.slice(1)
var pairs = str.split("&")
var params = {}
forEach(pairs, function (string) {
var pair = string.split("=")
var key = decodeURIComponent(pair[0])
var value = pair.length === 2 ? decodeURIComponent(pair[1]) : null
if (params[key] != null) {
if (!isArray(params[key])) params[key] = [params[key]]
params[key].push(value)
}
else params[key] = value
})
return params
}
m.route.buildQueryString = buildQueryString
m.route.parseQueryString = parseQueryString
function reset(root) {
var cacheKey = getCellCacheKey(root)
clear(root.childNodes, cellCache[cacheKey])
cellCache[cacheKey] = undefined
}
m.deferred = function () {
var deferred = new Deferred()
deferred.promise = propify(deferred.promise)
return deferred
}
function propify(promise, initialValue) {
var prop = m.prop(initialValue)
promise.then(prop)
prop.then = function (resolve, reject) {
return propify(promise.then(resolve, reject), initialValue)
}
prop.catch = prop.then.bind(null, null)
return prop
}
// Promiz.mithril.js | Zolmeister | MIT
// a modified version of Promiz.js, which does not conform to Promises/A+
// for two reasons:
//
// 1) `then` callbacks are called synchronously (because setTimeout is too
// slow, and the setImmediate polyfill is too big
//
// 2) throwing subclasses of Error cause the error to be bubbled up instead
// of triggering rejection (because the spec does not account for the
// important use case of default browser error handling, i.e. message w/
// line number)
var RESOLVING = 1
var REJECTING = 2
var RESOLVED = 3
var REJECTED = 4
function Deferred(onSuccess, onFailure) {
var self = this
var state = 0
var promiseValue = 0
var next = []
self.promise = {}
self.resolve = function (value) {
if (!state) {
promiseValue = value
state = RESOLVING
fire()
}
return self
}
self.reject = function (value) {
if (!state) {
promiseValue = value
state = REJECTING
fire()
}
return self
}
self.promise.then = function (onSuccess, onFailure) {
var deferred = new Deferred(onSuccess, onFailure)
if (state === RESOLVED) {
deferred.resolve(promiseValue)
} else if (state === REJECTED) {
deferred.reject(promiseValue)
} else {
next.push(deferred)
}
return deferred.promise
}
function finish(type) {
state = type || REJECTED
next.map(function (deferred) {
if (state === RESOLVED) {
deferred.resolve(promiseValue)
} else {
deferred.reject(promiseValue)
}
})
}
function thennable(then, success, failure, notThennable) {
if (((promiseValue != null && isObject(promiseValue)) ||
isFunction(promiseValue)) && isFunction(then)) {
try {
// count protects against abuse calls from spec checker
var count = 0
then.call(promiseValue, function (value) {
if (count++) return
promiseValue = value
success()
}, function (value) {
if (count++) return
promiseValue = value
failure()
})
} catch (e) {
m.deferred.onerror(e)
promiseValue = e
failure()
}
} else {
notThennable()
}
}
function fire() {
// check if it's a thenable
var then
try {
then = promiseValue && promiseValue.then
} catch (e) {
m.deferred.onerror(e)
promiseValue = e
state = REJECTING
return fire()
}
if (state === REJECTING) {
m.deferred.onerror(promiseValue)
}
thennable(then, function () {
state = RESOLVING
fire()
}, function () {
state = REJECTING
fire()
}, function () {
try {
if (state === RESOLVING && isFunction(onSuccess)) {
promiseValue = onSuccess(promiseValue)
} else if (state === REJECTING && isFunction(onFailure)) {
promiseValue = onFailure(promiseValue)
state = RESOLVING
}
} catch (e) {
m.deferred.onerror(e)
promiseValue = e
return finish()
}
if (promiseValue === self) {
promiseValue = TypeError()
finish()
} else {
thennable(then, function () {
finish(RESOLVED)
}, finish, function () {
finish(state === RESOLVING && RESOLVED)
})
}
})
}
}
m.deferred.onerror = function (e) {
if (type.call(e) === "[object Error]" &&
!e.constructor.toString().match(/ Error/)) {
pendingRequests = 0
throw e
}
}
m.sync = function (args) {
var deferred = m.deferred()
var outstanding = args.length
var results = new Array(outstanding)
var method = "resolve"
function synchronizer(pos, resolved) {
return function (value) {
results[pos] = value
if (!resolved) method = "reject"
if (--outstanding === 0) {
deferred.promise(results)
deferred[method](results)
}
return value
}
}
if (args.length > 0) {
forEach(args, function (arg, i) {
arg.then(synchronizer(i, true), synchronizer(i, false))
})
} else {
deferred.resolve([])
}
return deferred.promise
}
function identity(value) { return value }
function handleJsonp(options) {
var callbackKey = "mithril_callback_" +
new Date().getTime() + "_" +
(Math.round(Math.random() * 1e16)).toString(36)
var script = $document.createElement("script")
global[callbackKey] = function (resp) {
script.parentNode.removeChild(script)
options.onload({
type: "load",
target: {
responseText: resp
}
})
global[callbackKey] = undefined
}
script.onerror = function () {
script.parentNode.removeChild(script)
options.onerror({
type: "error",
target: {
status: 500,
responseText: JSON.stringify({
error: "Error making jsonp request"
})
}
})
global[callbackKey] = undefined
return false
}
script.onload = function () {
return false
}
script.src = options.url +
(options.url.indexOf("?") > 0 ? "&" : "?") +
(options.callbackKey ? options.callbackKey : "callback") +
"=" + callbackKey +
"&" + buildQueryString(options.data || {})
$document.body.appendChild(script)
}
function createXhr(options) {
var xhr = new global.XMLHttpRequest()
xhr.open(options.method, options.url, true, options.user,
options.password)
xhr.onreadystatechange = function () {
if (xhr.readyState === 4) {
if (xhr.status >= 200 && xhr.status < 300) {
options.onload({type: "load", target: xhr})
} else {
options.onerror({type: "error", target: xhr})
}
}
}
if (options.serialize === JSON.stringify &&
options.data &&
options.method !== "GET") {
xhr.setRequestHeader("Content-Type",
"application/json; charset=utf-8")
}
if (options.deserialize === JSON.parse) {
xhr.setRequestHeader("Accept", "application/json, text/*")
}
if (isFunction(options.config)) {
var maybeXhr = options.config(xhr, options)
if (maybeXhr != null) xhr = maybeXhr
}
var data = options.method === "GET" || !options.data ? "" : options.data
if (data && !isString(data) && data.constructor !== global.FormData) {
throw new Error("Request data should be either be a string or " +
"FormData. Check the `serialize` option in `m.request`")
}
xhr.send(data)
return xhr
}
function ajax(options) {
if (options.dataType && options.dataType.toLowerCase() === "jsonp") {
return handleJsonp(options)
} else {
return createXhr(options)
}
}
function bindData(options, data, serialize) {
if (options.method === "GET" && options.dataType !== "jsonp") {
var prefix = options.url.indexOf("?") < 0 ? "?" : "&"
var querystring = buildQueryString(data)
options.url += (querystring ? prefix + querystring : "")
} else {
options.data = serialize(data)
}
}
function parameterizeUrl(url, data) {
var tokens = url.match(/:[a-z]\w+/gi)
if (tokens && data) {
forEach(tokens, function (token) {
var key = token.slice(1)
url = url.replace(token, data[key])
delete data[key]
})
}
return url
}
m.request = function (options) {
if (options.background !== true) m.startComputation()
var deferred = new Deferred()
var isJSONP = options.dataType &&
options.dataType.toLowerCase() === "jsonp"
var serialize, deserialize, extract
if (isJSONP) {
serialize = options.serialize =
deserialize = options.deserialize = identity
extract = function (jsonp) { return jsonp.responseText }
} else {
serialize = options.serialize = options.serialize || JSON.stringify
deserialize = options.deserialize =
options.deserialize || JSON.parse
extract = options.extract || function (xhr) {
if (xhr.responseText.length || deserialize !== JSON.parse) {
return xhr.responseText
} else {
return null
}
}
}
options.method = (options.method || "GET").toUpperCase()
options.url = parameterizeUrl(options.url, options.data)
bindData(options, options.data, serialize)
options.onload = options.onerror = function (ev) {
try {
ev = ev || event
var response = deserialize(extract(ev.target, options))
if (ev.type === "load") {
if (options.unwrapSuccess) {
response = options.unwrapSuccess(response, ev.target)
}
if (isArray(response) && options.type) {
forEach(response, function (res, i) {
response[i] = new options.type(res)
})
} else if (options.type) {
response = new options.type(response)
}
deferred.resolve(response)
} else {
if (options.unwrapError) {
response = options.unwrapError(response, ev.target)
}
deferred.reject(response)
}
} catch (e) {
deferred.reject(e)
} finally {
if (options.background !== true) m.endComputation()
}
}
ajax(options)
deferred.promise = propify(deferred.promise, options.initialValue)
return deferred.promise
}
return m
})
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