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/* NUGET: BEGIN LICENSE TEXT * * Microsoft grants you the right to use these script files for the sole * purpose of either: (i) interacting through your browser with the Microsoft * website or online service, subject to the applicable licensing or use * terms; or (ii) using the files as included with a Microsoft product subject * to that product's license terms. Microsoft reserves all other rights to the * files not expressly granted by Microsoft, whether by implication, estoppel * or otherwise. Insofar as a script file is dual licensed under GPL, * Microsoft neither took the code under GPL nor distributes it thereunder but * under the terms set out in this paragraph. All notices and licenses * below are for informational purposes only. * * NUGET: END LICENSE TEXT */// Knockout JavaScript library v2.2.0
// (c) Steven Sanderson - http://knockoutjs.com/
// License: MIT (http://www.opensource.org/licenses/mit-license.php)
(function(){var DEBUG=true;(function(window,document,navigator,jQuery,undefined){!function(factory) { // Support three module loading scenarios
if (typeof require === 'function' && typeof exports === 'object' && typeof module === 'object') { // [1] CommonJS/Node.js
var target = module['exports'] || exports; // module.exports is for Node.js
factory(target); } else if (typeof define === 'function' && define['amd']) { // [2] AMD anonymous module
define(['exports'], factory); } else { // [3] No module loader (plain <script> tag) - put directly in global namespace
factory(window['ko'] = {}); }}(function(koExports){// Internally, all KO objects are attached to koExports (even the non-exported ones whose names will be minified by the closure compiler).
// In the future, the following "ko" variable may be made distinct from "koExports" so that private objects are not externally reachable.
var ko = typeof koExports !== 'undefined' ? koExports : {};// Google Closure Compiler helpers (used only to make the minified file smaller)
ko.exportSymbol = function(koPath, object) { var tokens = koPath.split(".");
// In the future, "ko" may become distinct from "koExports" (so that non-exported objects are not reachable)
// At that point, "target" would be set to: (typeof koExports !== "undefined" ? koExports : ko)
var target = ko;
for (var i = 0; i < tokens.length - 1; i++) target = target[tokens[i]]; target[tokens[tokens.length - 1]] = object;};ko.exportProperty = function(owner, publicName, object) { owner[publicName] = object;};ko.version = "2.2.0";
ko.exportSymbol('version', ko.version);ko.utils = new (function () { var stringTrimRegex = /^(\s|\u00A0)+|(\s|\u00A0)+$/g;
// Represent the known event types in a compact way, then at runtime transform it into a hash with event name as key (for fast lookup)
var knownEvents = {}, knownEventTypesByEventName = {}; var keyEventTypeName = /Firefox\/2/i.test(navigator.userAgent) ? 'KeyboardEvent' : 'UIEvents'; knownEvents[keyEventTypeName] = ['keyup', 'keydown', 'keypress']; knownEvents['MouseEvents'] = ['click', 'dblclick', 'mousedown', 'mouseup', 'mousemove', 'mouseover', 'mouseout', 'mouseenter', 'mouseleave']; for (var eventType in knownEvents) { var knownEventsForType = knownEvents[eventType]; if (knownEventsForType.length) { for (var i = 0, j = knownEventsForType.length; i < j; i++) knownEventTypesByEventName[knownEventsForType[i]] = eventType; } } var eventsThatMustBeRegisteredUsingAttachEvent = { 'propertychange': true }; // Workaround for an IE9 issue - https://github.com/SteveSanderson/knockout/issues/406
// Detect IE versions for bug workarounds (uses IE conditionals, not UA string, for robustness)
// Note that, since IE 10 does not support conditional comments, the following logic only detects IE < 10.
// Currently this is by design, since IE 10+ behaves correctly when treated as a standard browser.
// If there is a future need to detect specific versions of IE10+, we will amend this.
var ieVersion = (function() { var version = 3, div = document.createElement('div'), iElems = div.getElementsByTagName('i');
// Keep constructing conditional HTML blocks until we hit one that resolves to an empty fragment
while ( div.innerHTML = '<!--[if gt IE ' + (++version) + ']><i></i><![endif]-->', iElems[0] ); return version > 4 ? version : undefined; }()); var isIe6 = ieVersion === 6, isIe7 = ieVersion === 7;
function isClickOnCheckableElement(element, eventType) { if ((ko.utils.tagNameLower(element) !== "input") || !element.type) return false; if (eventType.toLowerCase() != "click") return false; var inputType = element.type; return (inputType == "checkbox") || (inputType == "radio"); }
return { fieldsIncludedWithJsonPost: ['authenticity_token', /^__RequestVerificationToken(_.*)?$/],
arrayForEach: function (array, action) { for (var i = 0, j = array.length; i < j; i++) action(array[i]); },
arrayIndexOf: function (array, item) { if (typeof Array.prototype.indexOf == "function") return Array.prototype.indexOf.call(array, item); for (var i = 0, j = array.length; i < j; i++) if (array[i] === item) return i; return -1; },
arrayFirst: function (array, predicate, predicateOwner) { for (var i = 0, j = array.length; i < j; i++) if (predicate.call(predicateOwner, array[i])) return array[i]; return null; },
arrayRemoveItem: function (array, itemToRemove) { var index = ko.utils.arrayIndexOf(array, itemToRemove); if (index >= 0) array.splice(index, 1); },
arrayGetDistinctValues: function (array) { array = array || []; var result = []; for (var i = 0, j = array.length; i < j; i++) { if (ko.utils.arrayIndexOf(result, array[i]) < 0) result.push(array[i]); } return result; },
arrayMap: function (array, mapping) { array = array || []; var result = []; for (var i = 0, j = array.length; i < j; i++) result.push(mapping(array[i])); return result; },
arrayFilter: function (array, predicate) { array = array || []; var result = []; for (var i = 0, j = array.length; i < j; i++) if (predicate(array[i])) result.push(array[i]); return result; },
arrayPushAll: function (array, valuesToPush) { if (valuesToPush instanceof Array) array.push.apply(array, valuesToPush); else for (var i = 0, j = valuesToPush.length; i < j; i++) array.push(valuesToPush[i]); return array; },
extend: function (target, source) { if (source) { for(var prop in source) { if(source.hasOwnProperty(prop)) { target[prop] = source[prop]; } } } return target; },
emptyDomNode: function (domNode) { while (domNode.firstChild) { ko.removeNode(domNode.firstChild); } },
moveCleanedNodesToContainerElement: function(nodes) { // Ensure it's a real array, as we're about to reparent the nodes and
// we don't want the underlying collection to change while we're doing that.
var nodesArray = ko.utils.makeArray(nodes);
var container = document.createElement('div'); for (var i = 0, j = nodesArray.length; i < j; i++) { container.appendChild(ko.cleanNode(nodesArray[i])); } return container; },
cloneNodes: function (nodesArray, shouldCleanNodes) { for (var i = 0, j = nodesArray.length, newNodesArray = []; i < j; i++) { var clonedNode = nodesArray[i].cloneNode(true); newNodesArray.push(shouldCleanNodes ? ko.cleanNode(clonedNode) : clonedNode); } return newNodesArray; },
setDomNodeChildren: function (domNode, childNodes) { ko.utils.emptyDomNode(domNode); if (childNodes) { for (var i = 0, j = childNodes.length; i < j; i++) domNode.appendChild(childNodes[i]); } },
replaceDomNodes: function (nodeToReplaceOrNodeArray, newNodesArray) { var nodesToReplaceArray = nodeToReplaceOrNodeArray.nodeType ? [nodeToReplaceOrNodeArray] : nodeToReplaceOrNodeArray; if (nodesToReplaceArray.length > 0) { var insertionPoint = nodesToReplaceArray[0]; var parent = insertionPoint.parentNode; for (var i = 0, j = newNodesArray.length; i < j; i++) parent.insertBefore(newNodesArray[i], insertionPoint); for (var i = 0, j = nodesToReplaceArray.length; i < j; i++) { ko.removeNode(nodesToReplaceArray[i]); } } },
setOptionNodeSelectionState: function (optionNode, isSelected) { // IE6 sometimes throws "unknown error" if you try to write to .selected directly, whereas Firefox struggles with setAttribute. Pick one based on browser.
if (ieVersion < 7) optionNode.setAttribute("selected", isSelected); else optionNode.selected = isSelected; },
stringTrim: function (string) { return (string || "").replace(stringTrimRegex, ""); },
stringTokenize: function (string, delimiter) { var result = []; var tokens = (string || "").split(delimiter); for (var i = 0, j = tokens.length; i < j; i++) { var trimmed = ko.utils.stringTrim(tokens[i]); if (trimmed !== "") result.push(trimmed); } return result; },
stringStartsWith: function (string, startsWith) { string = string || ""; if (startsWith.length > string.length) return false; return string.substring(0, startsWith.length) === startsWith; },
domNodeIsContainedBy: function (node, containedByNode) { if (containedByNode.compareDocumentPosition) return (containedByNode.compareDocumentPosition(node) & 16) == 16; while (node != null) { if (node == containedByNode) return true; node = node.parentNode; } return false; },
domNodeIsAttachedToDocument: function (node) { return ko.utils.domNodeIsContainedBy(node, node.ownerDocument); },
tagNameLower: function(element) { // For HTML elements, tagName will always be upper case; for XHTML elements, it'll be lower case.
// Possible future optimization: If we know it's an element from an XHTML document (not HTML),
// we don't need to do the .toLowerCase() as it will always be lower case anyway.
return element && element.tagName && element.tagName.toLowerCase(); },
registerEventHandler: function (element, eventType, handler) { var mustUseAttachEvent = ieVersion && eventsThatMustBeRegisteredUsingAttachEvent[eventType]; if (!mustUseAttachEvent && typeof jQuery != "undefined") { if (isClickOnCheckableElement(element, eventType)) { // For click events on checkboxes, jQuery interferes with the event handling in an awkward way:
// it toggles the element checked state *after* the click event handlers run, whereas native
// click events toggle the checked state *before* the event handler.
// Fix this by intecepting the handler and applying the correct checkedness before it runs.
var originalHandler = handler; handler = function(event, eventData) { var jQuerySuppliedCheckedState = this.checked; if (eventData) this.checked = eventData.checkedStateBeforeEvent !== true; originalHandler.call(this, event); this.checked = jQuerySuppliedCheckedState; // Restore the state jQuery applied
}; } jQuery(element)['bind'](eventType, handler); } else if (!mustUseAttachEvent && typeof element.addEventListener == "function") element.addEventListener(eventType, handler, false); else if (typeof element.attachEvent != "undefined") element.attachEvent("on" + eventType, function (event) { handler.call(element, event); }); else throw new Error("Browser doesn't support addEventListener or attachEvent"); },
triggerEvent: function (element, eventType) { if (!(element && element.nodeType)) throw new Error("element must be a DOM node when calling triggerEvent");
if (typeof jQuery != "undefined") { var eventData = []; if (isClickOnCheckableElement(element, eventType)) { // Work around the jQuery "click events on checkboxes" issue described above by storing the original checked state before triggering the handler
eventData.push({ checkedStateBeforeEvent: element.checked }); } jQuery(element)['trigger'](eventType, eventData); } else if (typeof document.createEvent == "function") { if (typeof element.dispatchEvent == "function") { var eventCategory = knownEventTypesByEventName[eventType] || "HTMLEvents"; var event = document.createEvent(eventCategory); event.initEvent(eventType, true, true, window, 0, 0, 0, 0, 0, false, false, false, false, 0, element); element.dispatchEvent(event); } else throw new Error("The supplied element doesn't support dispatchEvent"); } else if (typeof element.fireEvent != "undefined") { // Unlike other browsers, IE doesn't change the checked state of checkboxes/radiobuttons when you trigger their "click" event
// so to make it consistent, we'll do it manually here
if (isClickOnCheckableElement(element, eventType)) element.checked = element.checked !== true; element.fireEvent("on" + eventType); } else throw new Error("Browser doesn't support triggering events"); },
unwrapObservable: function (value) { return ko.isObservable(value) ? value() : value; },
peekObservable: function (value) { return ko.isObservable(value) ? value.peek() : value; },
toggleDomNodeCssClass: function (node, classNames, shouldHaveClass) { if (classNames) { var cssClassNameRegex = /[\w-]+/g, currentClassNames = node.className.match(cssClassNameRegex) || []; ko.utils.arrayForEach(classNames.match(cssClassNameRegex), function(className) { var indexOfClass = ko.utils.arrayIndexOf(currentClassNames, className); if (indexOfClass >= 0) { if (!shouldHaveClass) currentClassNames.splice(indexOfClass, 1); } else { if (shouldHaveClass) currentClassNames.push(className); } }); node.className = currentClassNames.join(" "); } },
setTextContent: function(element, textContent) { var value = ko.utils.unwrapObservable(textContent); if ((value === null) || (value === undefined)) value = "";
if (element.nodeType === 3) { element.data = value; } else { // We need there to be exactly one child: a text node.
// If there are no children, more than one, or if it's not a text node,
// we'll clear everything and create a single text node.
var innerTextNode = ko.virtualElements.firstChild(element); if (!innerTextNode || innerTextNode.nodeType != 3 || ko.virtualElements.nextSibling(innerTextNode)) { ko.virtualElements.setDomNodeChildren(element, [document.createTextNode(value)]); } else { innerTextNode.data = value; }
ko.utils.forceRefresh(element); } },
setElementName: function(element, name) { element.name = name;
// Workaround IE 6/7 issue
// - https://github.com/SteveSanderson/knockout/issues/197
// - http://www.matts411.com/post/setting_the_name_attribute_in_ie_dom/
if (ieVersion <= 7) { try { element.mergeAttributes(document.createElement("<input name='" + element.name + "'/>"), false); } catch(e) {} // For IE9 with doc mode "IE9 Standards" and browser mode "IE9 Compatibility View"
} },
forceRefresh: function(node) { // Workaround for an IE9 rendering bug - https://github.com/SteveSanderson/knockout/issues/209
if (ieVersion >= 9) { // For text nodes and comment nodes (most likely virtual elements), we will have to refresh the container
var elem = node.nodeType == 1 ? node : node.parentNode; if (elem.style) elem.style.zoom = elem.style.zoom; } },
ensureSelectElementIsRenderedCorrectly: function(selectElement) { // Workaround for IE9 rendering bug - it doesn't reliably display all the text in dynamically-added select boxes unless you force it to re-render by updating the width.
// (See https://github.com/SteveSanderson/knockout/issues/312, http://stackoverflow.com/questions/5908494/select-only-shows-first-char-of-selected-option)
if (ieVersion >= 9) { var originalWidth = selectElement.style.width; selectElement.style.width = 0; selectElement.style.width = originalWidth; } },
range: function (min, max) { min = ko.utils.unwrapObservable(min); max = ko.utils.unwrapObservable(max); var result = []; for (var i = min; i <= max; i++) result.push(i); return result; },
makeArray: function(arrayLikeObject) { var result = []; for (var i = 0, j = arrayLikeObject.length; i < j; i++) { result.push(arrayLikeObject[i]); }; return result; },
isIe6 : isIe6, isIe7 : isIe7, ieVersion : ieVersion,
getFormFields: function(form, fieldName) { var fields = ko.utils.makeArray(form.getElementsByTagName("input")).concat(ko.utils.makeArray(form.getElementsByTagName("textarea"))); var isMatchingField = (typeof fieldName == 'string') ? function(field) { return field.name === fieldName } : function(field) { return fieldName.test(field.name) }; // Treat fieldName as regex or object containing predicate
var matches = []; for (var i = fields.length - 1; i >= 0; i--) { if (isMatchingField(fields[i])) matches.push(fields[i]); }; return matches; },
parseJson: function (jsonString) { if (typeof jsonString == "string") { jsonString = ko.utils.stringTrim(jsonString); if (jsonString) { if (window.JSON && window.JSON.parse) // Use native parsing where available
return window.JSON.parse(jsonString); return (new Function("return " + jsonString))(); // Fallback on less safe parsing for older browsers
} } return null; },
stringifyJson: function (data, replacer, space) { // replacer and space are optional
if ((typeof JSON == "undefined") || (typeof JSON.stringify == "undefined")) throw new Error("Cannot find JSON.stringify(). Some browsers (e.g., IE < 8) don't support it natively, but you can overcome this by adding a script reference to json2.js, downloadable from http://www.json.org/json2.js"); return JSON.stringify(ko.utils.unwrapObservable(data), replacer, space); },
postJson: function (urlOrForm, data, options) { options = options || {}; var params = options['params'] || {}; var includeFields = options['includeFields'] || this.fieldsIncludedWithJsonPost; var url = urlOrForm;
// If we were given a form, use its 'action' URL and pick out any requested field values
if((typeof urlOrForm == 'object') && (ko.utils.tagNameLower(urlOrForm) === "form")) { var originalForm = urlOrForm; url = originalForm.action; for (var i = includeFields.length - 1; i >= 0; i--) { var fields = ko.utils.getFormFields(originalForm, includeFields[i]); for (var j = fields.length - 1; j >= 0; j--) params[fields[j].name] = fields[j].value; } }
data = ko.utils.unwrapObservable(data); var form = document.createElement("form"); form.style.display = "none"; form.action = url; form.method = "post"; for (var key in data) { var input = document.createElement("input"); input.name = key; input.value = ko.utils.stringifyJson(ko.utils.unwrapObservable(data[key])); form.appendChild(input); } for (var key in params) { var input = document.createElement("input"); input.name = key; input.value = params[key]; form.appendChild(input); } document.body.appendChild(form); options['submitter'] ? options['submitter'](form) : form.submit(); setTimeout(function () { form.parentNode.removeChild(form); }, 0); } }})();
ko.exportSymbol('utils', ko.utils);ko.exportSymbol('utils.arrayForEach', ko.utils.arrayForEach);ko.exportSymbol('utils.arrayFirst', ko.utils.arrayFirst);ko.exportSymbol('utils.arrayFilter', ko.utils.arrayFilter);ko.exportSymbol('utils.arrayGetDistinctValues', ko.utils.arrayGetDistinctValues);ko.exportSymbol('utils.arrayIndexOf', ko.utils.arrayIndexOf);ko.exportSymbol('utils.arrayMap', ko.utils.arrayMap);ko.exportSymbol('utils.arrayPushAll', ko.utils.arrayPushAll);ko.exportSymbol('utils.arrayRemoveItem', ko.utils.arrayRemoveItem);ko.exportSymbol('utils.extend', ko.utils.extend);ko.exportSymbol('utils.fieldsIncludedWithJsonPost', ko.utils.fieldsIncludedWithJsonPost);ko.exportSymbol('utils.getFormFields', ko.utils.getFormFields);ko.exportSymbol('utils.peekObservable', ko.utils.peekObservable);ko.exportSymbol('utils.postJson', ko.utils.postJson);ko.exportSymbol('utils.parseJson', ko.utils.parseJson);ko.exportSymbol('utils.registerEventHandler', ko.utils.registerEventHandler);ko.exportSymbol('utils.stringifyJson', ko.utils.stringifyJson);ko.exportSymbol('utils.range', ko.utils.range);ko.exportSymbol('utils.toggleDomNodeCssClass', ko.utils.toggleDomNodeCssClass);ko.exportSymbol('utils.triggerEvent', ko.utils.triggerEvent);ko.exportSymbol('utils.unwrapObservable', ko.utils.unwrapObservable);
if (!Function.prototype['bind']) { // Function.prototype.bind is a standard part of ECMAScript 5th Edition (December 2009, http://www.ecma-international.org/publications/files/ECMA-ST/ECMA-262.pdf)
// In case the browser doesn't implement it natively, provide a JavaScript implementation. This implementation is based on the one in prototype.js
Function.prototype['bind'] = function (object) { var originalFunction = this, args = Array.prototype.slice.call(arguments), object = args.shift(); return function () { return originalFunction.apply(object, args.concat(Array.prototype.slice.call(arguments))); }; };}
ko.utils.domData = new (function () { var uniqueId = 0; var dataStoreKeyExpandoPropertyName = "__ko__" + (new Date).getTime(); var dataStore = {}; return { get: function (node, key) { var allDataForNode = ko.utils.domData.getAll(node, false); return allDataForNode === undefined ? undefined : allDataForNode[key]; }, set: function (node, key, value) { if (value === undefined) { // Make sure we don't actually create a new domData key if we are actually deleting a value
if (ko.utils.domData.getAll(node, false) === undefined) return; } var allDataForNode = ko.utils.domData.getAll(node, true); allDataForNode[key] = value; }, getAll: function (node, createIfNotFound) { var dataStoreKey = node[dataStoreKeyExpandoPropertyName]; var hasExistingDataStore = dataStoreKey && (dataStoreKey !== "null") && dataStore[dataStoreKey]; if (!hasExistingDataStore) { if (!createIfNotFound) return undefined; dataStoreKey = node[dataStoreKeyExpandoPropertyName] = "ko" + uniqueId++; dataStore[dataStoreKey] = {}; } return dataStore[dataStoreKey]; }, clear: function (node) { var dataStoreKey = node[dataStoreKeyExpandoPropertyName]; if (dataStoreKey) { delete dataStore[dataStoreKey]; node[dataStoreKeyExpandoPropertyName] = null; return true; // Exposing "did clean" flag purely so specs can infer whether things have been cleaned up as intended
} return false; } }})();
ko.exportSymbol('utils.domData', ko.utils.domData);ko.exportSymbol('utils.domData.clear', ko.utils.domData.clear); // Exporting only so specs can clear up after themselves fully
ko.utils.domNodeDisposal = new (function () { var domDataKey = "__ko_domNodeDisposal__" + (new Date).getTime(); var cleanableNodeTypes = { 1: true, 8: true, 9: true }; // Element, Comment, Document
var cleanableNodeTypesWithDescendants = { 1: true, 9: true }; // Element, Document
function getDisposeCallbacksCollection(node, createIfNotFound) { var allDisposeCallbacks = ko.utils.domData.get(node, domDataKey); if ((allDisposeCallbacks === undefined) && createIfNotFound) { allDisposeCallbacks = []; ko.utils.domData.set(node, domDataKey, allDisposeCallbacks); } return allDisposeCallbacks; } function destroyCallbacksCollection(node) { ko.utils.domData.set(node, domDataKey, undefined); }
function cleanSingleNode(node) { // Run all the dispose callbacks
var callbacks = getDisposeCallbacksCollection(node, false); if (callbacks) { callbacks = callbacks.slice(0); // Clone, as the array may be modified during iteration (typically, callbacks will remove themselves)
for (var i = 0; i < callbacks.length; i++) callbacks[i](node); }
// Also erase the DOM data
ko.utils.domData.clear(node);
// Special support for jQuery here because it's so commonly used.
// Many jQuery plugins (including jquery.tmpl) store data using jQuery's equivalent of domData
// so notify it to tear down any resources associated with the node & descendants here.
if ((typeof jQuery == "function") && (typeof jQuery['cleanData'] == "function")) jQuery['cleanData']([node]);
// Also clear any immediate-child comment nodes, as these wouldn't have been found by
// node.getElementsByTagName("*") in cleanNode() (comment nodes aren't elements)
if (cleanableNodeTypesWithDescendants[node.nodeType]) cleanImmediateCommentTypeChildren(node); }
function cleanImmediateCommentTypeChildren(nodeWithChildren) { var child, nextChild = nodeWithChildren.firstChild; while (child = nextChild) { nextChild = child.nextSibling; if (child.nodeType === 8) cleanSingleNode(child); } }
return { addDisposeCallback : function(node, callback) { if (typeof callback != "function") throw new Error("Callback must be a function"); getDisposeCallbacksCollection(node, true).push(callback); },
removeDisposeCallback : function(node, callback) { var callbacksCollection = getDisposeCallbacksCollection(node, false); if (callbacksCollection) { ko.utils.arrayRemoveItem(callbacksCollection, callback); if (callbacksCollection.length == 0) destroyCallbacksCollection(node); } },
cleanNode : function(node) { // First clean this node, where applicable
if (cleanableNodeTypes[node.nodeType]) { cleanSingleNode(node);
// ... then its descendants, where applicable
if (cleanableNodeTypesWithDescendants[node.nodeType]) { // Clone the descendants list in case it changes during iteration
var descendants = []; ko.utils.arrayPushAll(descendants, node.getElementsByTagName("*")); for (var i = 0, j = descendants.length; i < j; i++) cleanSingleNode(descendants[i]); } } return node; },
removeNode : function(node) { ko.cleanNode(node); if (node.parentNode) node.parentNode.removeChild(node); } }})();ko.cleanNode = ko.utils.domNodeDisposal.cleanNode; // Shorthand name for convenience
ko.removeNode = ko.utils.domNodeDisposal.removeNode; // Shorthand name for convenience
ko.exportSymbol('cleanNode', ko.cleanNode);ko.exportSymbol('removeNode', ko.removeNode);ko.exportSymbol('utils.domNodeDisposal', ko.utils.domNodeDisposal);ko.exportSymbol('utils.domNodeDisposal.addDisposeCallback', ko.utils.domNodeDisposal.addDisposeCallback);ko.exportSymbol('utils.domNodeDisposal.removeDisposeCallback', ko.utils.domNodeDisposal.removeDisposeCallback);(function () { var leadingCommentRegex = /^(\s*)<!--(.*?)-->/;
function simpleHtmlParse(html) { // Based on jQuery's "clean" function, but only accounting for table-related elements.
// If you have referenced jQuery, this won't be used anyway - KO will use jQuery's "clean" function directly
// Note that there's still an issue in IE < 9 whereby it will discard comment nodes that are the first child of
// a descendant node. For example: "<div><!-- mycomment -->abc</div>" will get parsed as "<div>abc</div>"
// This won't affect anyone who has referenced jQuery, and there's always the workaround of inserting a dummy node
// (possibly a text node) in front of the comment. So, KO does not attempt to workaround this IE issue automatically at present.
// Trim whitespace, otherwise indexOf won't work as expected
var tags = ko.utils.stringTrim(html).toLowerCase(), div = document.createElement("div");
// Finds the first match from the left column, and returns the corresponding "wrap" data from the right column
var wrap = tags.match(/^<(thead|tbody|tfoot)/) && [1, "<table>", "</table>"] || !tags.indexOf("<tr") && [2, "<table><tbody>", "</tbody></table>"] || (!tags.indexOf("<td") || !tags.indexOf("<th")) && [3, "<table><tbody><tr>", "</tr></tbody></table>"] || /* anything else */ [0, "", ""];
// Go to html and back, then peel off extra wrappers
// Note that we always prefix with some dummy text, because otherwise, IE<9 will strip out leading comment nodes in descendants. Total madness.
var markup = "ignored<div>" + wrap[1] + html + wrap[2] + "</div>"; if (typeof window['innerShiv'] == "function") { div.appendChild(window['innerShiv'](markup)); } else { div.innerHTML = markup; }
// Move to the right depth
while (wrap[0]--) div = div.lastChild;
return ko.utils.makeArray(div.lastChild.childNodes); }
function jQueryHtmlParse(html) { var elems = jQuery['clean']([html]);
// As of jQuery 1.7.1, jQuery parses the HTML by appending it to some dummy parent nodes held in an in-memory document fragment.
// Unfortunately, it never clears the dummy parent nodes from the document fragment, so it leaks memory over time.
// Fix this by finding the top-most dummy parent element, and detaching it from its owner fragment.
if (elems && elems[0]) { // Find the top-most parent element that's a direct child of a document fragment
var elem = elems[0]; while (elem.parentNode && elem.parentNode.nodeType !== 11 /* i.e., DocumentFragment */) elem = elem.parentNode; // ... then detach it
if (elem.parentNode) elem.parentNode.removeChild(elem); }
return elems; }
ko.utils.parseHtmlFragment = function(html) { return typeof jQuery != 'undefined' ? jQueryHtmlParse(html) // As below, benefit from jQuery's optimisations where possible
: simpleHtmlParse(html); // ... otherwise, this simple logic will do in most common cases.
};
ko.utils.setHtml = function(node, html) { ko.utils.emptyDomNode(node);
// There's no legitimate reason to display a stringified observable without unwrapping it, so we'll unwrap it
html = ko.utils.unwrapObservable(html);
if ((html !== null) && (html !== undefined)) { if (typeof html != 'string') html = html.toString();
// jQuery contains a lot of sophisticated code to parse arbitrary HTML fragments,
// for example <tr> elements which are not normally allowed to exist on their own.
// If you've referenced jQuery we'll use that rather than duplicating its code.
if (typeof jQuery != 'undefined') { jQuery(node)['html'](html); } else { // ... otherwise, use KO's own parsing logic.
var parsedNodes = ko.utils.parseHtmlFragment(html); for (var i = 0; i < parsedNodes.length; i++) node.appendChild(parsedNodes[i]); } } };})();
ko.exportSymbol('utils.parseHtmlFragment', ko.utils.parseHtmlFragment);ko.exportSymbol('utils.setHtml', ko.utils.setHtml);
ko.memoization = (function () { var memos = {};
function randomMax8HexChars() { return (((1 + Math.random()) * 0x100000000) | 0).toString(16).substring(1); } function generateRandomId() { return randomMax8HexChars() + randomMax8HexChars(); } function findMemoNodes(rootNode, appendToArray) { if (!rootNode) return; if (rootNode.nodeType == 8) { var memoId = ko.memoization.parseMemoText(rootNode.nodeValue); if (memoId != null) appendToArray.push({ domNode: rootNode, memoId: memoId }); } else if (rootNode.nodeType == 1) { for (var i = 0, childNodes = rootNode.childNodes, j = childNodes.length; i < j; i++) findMemoNodes(childNodes[i], appendToArray); } }
return { memoize: function (callback) { if (typeof callback != "function") throw new Error("You can only pass a function to ko.memoization.memoize()"); var memoId = generateRandomId(); memos[memoId] = callback; return "<!--[ko_memo:" + memoId + "]-->"; },
unmemoize: function (memoId, callbackParams) { var callback = memos[memoId]; if (callback === undefined) throw new Error("Couldn't find any memo with ID " + memoId + ". Perhaps it's already been unmemoized."); try { callback.apply(null, callbackParams || []); return true; } finally { delete memos[memoId]; } },
unmemoizeDomNodeAndDescendants: function (domNode, extraCallbackParamsArray) { var memos = []; findMemoNodes(domNode, memos); for (var i = 0, j = memos.length; i < j; i++) { var node = memos[i].domNode; var combinedParams = [node]; if (extraCallbackParamsArray) ko.utils.arrayPushAll(combinedParams, extraCallbackParamsArray); ko.memoization.unmemoize(memos[i].memoId, combinedParams); node.nodeValue = ""; // Neuter this node so we don't try to unmemoize it again
if (node.parentNode) node.parentNode.removeChild(node); // If possible, erase it totally (not always possible - someone else might just hold a reference to it then call unmemoizeDomNodeAndDescendants again)
} },
parseMemoText: function (memoText) { var match = memoText.match(/^\[ko_memo\:(.*?)\]$/); return match ? match[1] : null; } };})();
ko.exportSymbol('memoization', ko.memoization);ko.exportSymbol('memoization.memoize', ko.memoization.memoize);ko.exportSymbol('memoization.unmemoize', ko.memoization.unmemoize);ko.exportSymbol('memoization.parseMemoText', ko.memoization.parseMemoText);ko.exportSymbol('memoization.unmemoizeDomNodeAndDescendants', ko.memoization.unmemoizeDomNodeAndDescendants);ko.extenders = { 'throttle': function(target, timeout) { // Throttling means two things:
// (1) For dependent observables, we throttle *evaluations* so that, no matter how fast its dependencies
// notify updates, the target doesn't re-evaluate (and hence doesn't notify) faster than a certain rate
target['throttleEvaluation'] = timeout;
// (2) For writable targets (observables, or writable dependent observables), we throttle *writes*
// so the target cannot change value synchronously or faster than a certain rate
var writeTimeoutInstance = null; return ko.dependentObservable({ 'read': target, 'write': function(value) { clearTimeout(writeTimeoutInstance); writeTimeoutInstance = setTimeout(function() { target(value); }, timeout); } }); },
'notify': function(target, notifyWhen) { target["equalityComparer"] = notifyWhen == "always" ? function() { return false } // Treat all values as not equal
: ko.observable["fn"]["equalityComparer"]; return target; }};
function applyExtenders(requestedExtenders) { var target = this; if (requestedExtenders) { for (var key in requestedExtenders) { var extenderHandler = ko.extenders[key]; if (typeof extenderHandler == 'function') { target = extenderHandler(target, requestedExtenders[key]); } } } return target;}
ko.exportSymbol('extenders', ko.extenders);
ko.subscription = function (target, callback, disposeCallback) { this.target = target; this.callback = callback; this.disposeCallback = disposeCallback; ko.exportProperty(this, 'dispose', this.dispose);};ko.subscription.prototype.dispose = function () { this.isDisposed = true; this.disposeCallback();};
ko.subscribable = function () { this._subscriptions = {};
ko.utils.extend(this, ko.subscribable['fn']); ko.exportProperty(this, 'subscribe', this.subscribe); ko.exportProperty(this, 'extend', this.extend); ko.exportProperty(this, 'getSubscriptionsCount', this.getSubscriptionsCount);}
var defaultEvent = "change";
ko.subscribable['fn'] = { subscribe: function (callback, callbackTarget, event) { event = event || defaultEvent; var boundCallback = callbackTarget ? callback.bind(callbackTarget) : callback;
var subscription = new ko.subscription(this, boundCallback, function () { ko.utils.arrayRemoveItem(this._subscriptions[event], subscription); }.bind(this));
if (!this._subscriptions[event]) this._subscriptions[event] = []; this._subscriptions[event].push(subscription); return subscription; },
"notifySubscribers": function (valueToNotify, event) { event = event || defaultEvent; if (this._subscriptions[event]) { ko.dependencyDetection.ignore(function() { ko.utils.arrayForEach(this._subscriptions[event].slice(0), function (subscription) { // In case a subscription was disposed during the arrayForEach cycle, check
// for isDisposed on each subscription before invoking its callback
if (subscription && (subscription.isDisposed !== true)) subscription.callback(valueToNotify); }); }, this); } },
getSubscriptionsCount: function () { var total = 0; for (var eventName in this._subscriptions) { if (this._subscriptions.hasOwnProperty(eventName)) total += this._subscriptions[eventName].length; } return total; },
extend: applyExtenders};
ko.isSubscribable = function (instance) { return typeof instance.subscribe == "function" && typeof instance["notifySubscribers"] == "function";};
ko.exportSymbol('subscribable', ko.subscribable);ko.exportSymbol('isSubscribable', ko.isSubscribable);
ko.dependencyDetection = (function () { var _frames = [];
return { begin: function (callback) { _frames.push({ callback: callback, distinctDependencies:[] }); },
end: function () { _frames.pop(); },
registerDependency: function (subscribable) { if (!ko.isSubscribable(subscribable)) throw new Error("Only subscribable things can act as dependencies"); if (_frames.length > 0) { var topFrame = _frames[_frames.length - 1]; if (!topFrame || ko.utils.arrayIndexOf(topFrame.distinctDependencies, subscribable) >= 0) return; topFrame.distinctDependencies.push(subscribable); topFrame.callback(subscribable); } },
ignore: function(callback, callbackTarget, callbackArgs) { try { _frames.push(null); return callback.apply(callbackTarget, callbackArgs || []); } finally { _frames.pop(); } } };})();var primitiveTypes = { 'undefined':true, 'boolean':true, 'number':true, 'string':true };
ko.observable = function (initialValue) { var _latestValue = initialValue;
function observable() { if (arguments.length > 0) { // Write
// Ignore writes if the value hasn't changed
if ((!observable['equalityComparer']) || !observable['equalityComparer'](_latestValue, arguments[0])) { observable.valueWillMutate(); _latestValue = arguments[0]; if (DEBUG) observable._latestValue = _latestValue; observable.valueHasMutated(); } return this; // Permits chained assignments
} else { // Read
ko.dependencyDetection.registerDependency(observable); // The caller only needs to be notified of changes if they did a "read" operation
return _latestValue; } } if (DEBUG) observable._latestValue = _latestValue; ko.subscribable.call(observable); observable.peek = function() { return _latestValue }; observable.valueHasMutated = function () { observable["notifySubscribers"](_latestValue); } observable.valueWillMutate = function () { observable["notifySubscribers"](_latestValue, "beforeChange"); } ko.utils.extend(observable, ko.observable['fn']);
ko.exportProperty(observable, 'peek', observable.peek); ko.exportProperty(observable, "valueHasMutated", observable.valueHasMutated); ko.exportProperty(observable, "valueWillMutate", observable.valueWillMutate);
return observable;}
ko.observable['fn'] = { "equalityComparer": function valuesArePrimitiveAndEqual(a, b) { var oldValueIsPrimitive = (a === null) || (typeof(a) in primitiveTypes); return oldValueIsPrimitive ? (a === b) : false; }};
var protoProperty = ko.observable.protoProperty = "__ko_proto__";ko.observable['fn'][protoProperty] = ko.observable;
ko.hasPrototype = function(instance, prototype) { if ((instance === null) || (instance === undefined) || (instance[protoProperty] === undefined)) return false; if (instance[protoProperty] === prototype) return true; return ko.hasPrototype(instance[protoProperty], prototype); // Walk the prototype chain
};
ko.isObservable = function (instance) { return ko.hasPrototype(instance, ko.observable);}ko.isWriteableObservable = function (instance) { // Observable
if ((typeof instance == "function") && instance[protoProperty] === ko.observable) return true; // Writeable dependent observable
if ((typeof instance == "function") && (instance[protoProperty] === ko.dependentObservable) && (instance.hasWriteFunction)) return true; // Anything else
return false;}
ko.exportSymbol('observable', ko.observable);ko.exportSymbol('isObservable', ko.isObservable);ko.exportSymbol('isWriteableObservable', ko.isWriteableObservable);ko.observableArray = function (initialValues) { if (arguments.length == 0) { // Zero-parameter constructor initializes to empty array
initialValues = []; } if ((initialValues !== null) && (initialValues !== undefined) && !('length' in initialValues)) throw new Error("The argument passed when initializing an observable array must be an array, or null, or undefined.");
var result = ko.observable(initialValues); ko.utils.extend(result, ko.observableArray['fn']); return result;}
ko.observableArray['fn'] = { 'remove': function (valueOrPredicate) { var underlyingArray = this.peek(); var removedValues = []; var predicate = typeof valueOrPredicate == "function" ? valueOrPredicate : function (value) { return value === valueOrPredicate; }; for (var i = 0; i < underlyingArray.length; i++) { var value = underlyingArray[i]; if (predicate(value)) { if (removedValues.length === 0) { this.valueWillMutate(); } removedValues.push(value); underlyingArray.splice(i, 1); i--; } } if (removedValues.length) { this.valueHasMutated(); } return removedValues; },
'removeAll': function (arrayOfValues) { // If you passed zero args, we remove everything
if (arrayOfValues === undefined) { var underlyingArray = this.peek(); var allValues = underlyingArray.slice(0); this.valueWillMutate(); underlyingArray.splice(0, underlyingArray.length); this.valueHasMutated(); return allValues; } // If you passed an arg, we interpret it as an array of entries to remove
if (!arrayOfValues) return []; return this['remove'](function (value) { return ko.utils.arrayIndexOf(arrayOfValues, value) >= 0; }); },
'destroy': function (valueOrPredicate) { var underlyingArray = this.peek(); var predicate = typeof valueOrPredicate == "function" ? valueOrPredicate : function (value) { return value === valueOrPredicate; }; this.valueWillMutate(); for (var i = underlyingArray.length - 1; i >= 0; i--) { var value = underlyingArray[i]; if (predicate(value)) underlyingArray[i]["_destroy"] = true; } this.valueHasMutated(); },
'destroyAll': function (arrayOfValues) { // If you passed zero args, we destroy everything
if (arrayOfValues === undefined) return this['destroy'](function() { return true });
// If you passed an arg, we interpret it as an array of entries to destroy
if (!arrayOfValues) return []; return this['destroy'](function (value) { return ko.utils.arrayIndexOf(arrayOfValues, value) >= 0; }); },
'indexOf': function (item) { var underlyingArray = this(); return ko.utils.arrayIndexOf(underlyingArray, item); },
'replace': function(oldItem, newItem) { var index = this['indexOf'](oldItem); if (index >= 0) { this.valueWillMutate(); this.peek()[index] = newItem; this.valueHasMutated(); } }}
// Populate ko.observableArray.fn with read/write functions from native arrays
// Important: Do not add any additional functions here that may reasonably be used to *read* data from the array
// because we'll eval them without causing subscriptions, so ko.computed output could end up getting stale
ko.utils.arrayForEach(["pop", "push", "reverse", "shift", "sort", "splice", "unshift"], function (methodName) { ko.observableArray['fn'][methodName] = function () { // Use "peek" to avoid creating a subscription in any computed that we're executing in the context of
// (for consistency with mutating regular observables)
var underlyingArray = this.peek(); this.valueWillMutate(); var methodCallResult = underlyingArray[methodName].apply(underlyingArray, arguments); this.valueHasMutated(); return methodCallResult; };});
// Populate ko.observableArray.fn with read-only functions from native arrays
ko.utils.arrayForEach(["slice"], function (methodName) { ko.observableArray['fn'][methodName] = function () { var underlyingArray = this(); return underlyingArray[methodName].apply(underlyingArray, arguments); };});
ko.exportSymbol('observableArray', ko.observableArray);ko.dependentObservable = function (evaluatorFunctionOrOptions, evaluatorFunctionTarget, options) { var _latestValue, _hasBeenEvaluated = false, _isBeingEvaluated = false, readFunction = evaluatorFunctionOrOptions;
if (readFunction && typeof readFunction == "object") { // Single-parameter syntax - everything is on this "options" param
options = readFunction; readFunction = options["read"]; } else { // Multi-parameter syntax - construct the options according to the params passed
options = options || {}; if (!readFunction) readFunction = options["read"]; } if (typeof readFunction != "function") throw new Error("Pass a function that returns the value of the ko.computed");
function addSubscriptionToDependency(subscribable) { _subscriptionsToDependencies.push(subscribable.subscribe(evaluatePossiblyAsync)); }
function disposeAllSubscriptionsToDependencies() { ko.utils.arrayForEach(_subscriptionsToDependencies, function (subscription) { subscription.dispose(); }); _subscriptionsToDependencies = []; }
function evaluatePossiblyAsync() { var throttleEvaluationTimeout = dependentObservable['throttleEvaluation']; if (throttleEvaluationTimeout && throttleEvaluationTimeout >= 0) { clearTimeout(evaluationTimeoutInstance); evaluationTimeoutInstance = setTimeout(evaluateImmediate, throttleEvaluationTimeout); } else evaluateImmediate(); }
function evaluateImmediate() { if (_isBeingEvaluated) { // If the evaluation of a ko.computed causes side effects, it's possible that it will trigger its own re-evaluation.
// This is not desirable (it's hard for a developer to realise a chain of dependencies might cause this, and they almost
// certainly didn't intend infinite re-evaluations). So, for predictability, we simply prevent ko.computeds from causing
// their own re-evaluation. Further discussion at https://github.com/SteveSanderson/knockout/pull/387
return; }
// Don't dispose on first evaluation, because the "disposeWhen" callback might
// e.g., dispose when the associated DOM element isn't in the doc, and it's not
// going to be in the doc until *after* the first evaluation
if (_hasBeenEvaluated && disposeWhen()) { dispose(); return; }
_isBeingEvaluated = true; try { // Initially, we assume that none of the subscriptions are still being used (i.e., all are candidates for disposal).
// Then, during evaluation, we cross off any that are in fact still being used.
var disposalCandidates = ko.utils.arrayMap(_subscriptionsToDependencies, function(item) {return item.target;});
ko.dependencyDetection.begin(function(subscribable) { var inOld; if ((inOld = ko.utils.arrayIndexOf(disposalCandidates, subscribable)) >= 0) disposalCandidates[inOld] = undefined; // Don't want to dispose this subscription, as it's still being used
else addSubscriptionToDependency(subscribable); // Brand new subscription - add it
});
var newValue = readFunction.call(evaluatorFunctionTarget);
// For each subscription no longer being used, remove it from the active subscriptions list and dispose it
for (var i = disposalCandidates.length - 1; i >= 0; i--) { if (disposalCandidates[i]) _subscriptionsToDependencies.splice(i, 1)[0].dispose(); } _hasBeenEvaluated = true;
dependentObservable["notifySubscribers"](_latestValue, "beforeChange"); _latestValue = newValue; if (DEBUG) dependentObservable._latestValue = _latestValue; } finally { ko.dependencyDetection.end(); }
dependentObservable["notifySubscribers"](_latestValue); _isBeingEvaluated = false; if (!_subscriptionsToDependencies.length) dispose(); }
function dependentObservable() { if (arguments.length > 0) { if (typeof writeFunction === "function") { // Writing a value
writeFunction.apply(evaluatorFunctionTarget, arguments); } else { throw new Error("Cannot write a value to a ko.computed unless you specify a 'write' option. If you wish to read the current value, don't pass any parameters."); } return this; // Permits chained assignments
} else { // Reading the value
if (!_hasBeenEvaluated) evaluateImmediate(); ko.dependencyDetection.registerDependency(dependentObservable); return _latestValue; } }
function peek() { if (!_hasBeenEvaluated) evaluateImmediate(); return _latestValue; }
function isActive() { return !_hasBeenEvaluated || _subscriptionsToDependencies.length > 0; }
// By here, "options" is always non-null
var writeFunction = options["write"], disposeWhenNodeIsRemoved = options["disposeWhenNodeIsRemoved"] || options.disposeWhenNodeIsRemoved || null, disposeWhen = options["disposeWhen"] || options.disposeWhen || function() { return false; }, dispose = disposeAllSubscriptionsToDependencies, _subscriptionsToDependencies = [], evaluationTimeoutInstance = null;
if (!evaluatorFunctionTarget) evaluatorFunctionTarget = options["owner"];
dependentObservable.peek = peek; dependentObservable.getDependenciesCount = function () { return _subscriptionsToDependencies.length; }; dependentObservable.hasWriteFunction = typeof options["write"] === "function"; dependentObservable.dispose = function () { dispose(); }; dependentObservable.isActive = isActive;
ko.subscribable.call(dependentObservable); ko.utils.extend(dependentObservable, ko.dependentObservable['fn']);
ko.exportProperty(dependentObservable, 'peek', dependentObservable.peek); ko.exportProperty(dependentObservable, 'dispose', dependentObservable.dispose); ko.exportProperty(dependentObservable, 'isActive', dependentObservable.isActive); ko.exportProperty(dependentObservable, 'getDependenciesCount', dependentObservable.getDependenciesCount);
// Evaluate, unless deferEvaluation is true
if (options['deferEvaluation'] !== true) evaluateImmediate();
// Build "disposeWhenNodeIsRemoved" and "disposeWhenNodeIsRemovedCallback" option values.
// But skip if isActive is false (there will never be any dependencies to dispose).
// (Note: "disposeWhenNodeIsRemoved" option both proactively disposes as soon as the node is removed using ko.removeNode(),
// plus adds a "disposeWhen" callback that, on each evaluation, disposes if the node was removed by some other means.)
if (disposeWhenNodeIsRemoved && isActive()) { dispose = function() { ko.utils.domNodeDisposal.removeDisposeCallback(disposeWhenNodeIsRemoved, arguments.callee); disposeAllSubscriptionsToDependencies(); }; ko.utils.domNodeDisposal.addDisposeCallback(disposeWhenNodeIsRemoved, dispose); var existingDisposeWhenFunction = disposeWhen; disposeWhen = function () { return !ko.utils.domNodeIsAttachedToDocument(disposeWhenNodeIsRemoved) || existingDisposeWhenFunction(); } }
return dependentObservable;};
ko.isComputed = function(instance) { return ko.hasPrototype(instance, ko.dependentObservable);};
var protoProp = ko.observable.protoProperty; // == "__ko_proto__"
ko.dependentObservable[protoProp] = ko.observable;
ko.dependentObservable['fn'] = {};ko.dependentObservable['fn'][protoProp] = ko.dependentObservable;
ko.exportSymbol('dependentObservable', ko.dependentObservable);ko.exportSymbol('computed', ko.dependentObservable); // Make "ko.computed" an alias for "ko.dependentObservable"
ko.exportSymbol('isComputed', ko.isComputed);
(function() { var maxNestedObservableDepth = 10; // Escape the (unlikely) pathalogical case where an observable's current value is itself (or similar reference cycle)
ko.toJS = function(rootObject) { if (arguments.length == 0) throw new Error("When calling ko.toJS, pass the object you want to convert.");
// We just unwrap everything at every level in the object graph
return mapJsObjectGraph(rootObject, function(valueToMap) { // Loop because an observable's value might in turn be another observable wrapper
for (var i = 0; ko.isObservable(valueToMap) && (i < maxNestedObservableDepth); i++) valueToMap = valueToMap(); return valueToMap; }); };
ko.toJSON = function(rootObject, replacer, space) { // replacer and space are optional
var plainJavaScriptObject = ko.toJS(rootObject); return ko.utils.stringifyJson(plainJavaScriptObject, replacer, space); };
function mapJsObjectGraph(rootObject, mapInputCallback, visitedObjects) { visitedObjects = visitedObjects || new objectLookup();
rootObject = mapInputCallback(rootObject); var canHaveProperties = (typeof rootObject == "object") && (rootObject !== null) && (rootObject !== undefined) && (!(rootObject instanceof Date)); if (!canHaveProperties) return rootObject;
var outputProperties = rootObject instanceof Array ? [] : {}; visitedObjects.save(rootObject, outputProperties);
visitPropertiesOrArrayEntries(rootObject, function(indexer) { var propertyValue = mapInputCallback(rootObject[indexer]);
switch (typeof propertyValue) { case "boolean": case "number": case "string": case "function": outputProperties[indexer] = propertyValue; break; case "object": case "undefined": var previouslyMappedValue = visitedObjects.get(propertyValue); outputProperties[indexer] = (previouslyMappedValue !== undefined) ? previouslyMappedValue : mapJsObjectGraph(propertyValue, mapInputCallback, visitedObjects); break; } });
return outputProperties; }
function visitPropertiesOrArrayEntries(rootObject, visitorCallback) { if (rootObject instanceof Array) { for (var i = 0; i < rootObject.length; i++) visitorCallback(i);
// For arrays, also respect toJSON property for custom mappings (fixes #278)
if (typeof rootObject['toJSON'] == 'function') visitorCallback('toJSON'); } else { for (var propertyName in rootObject) visitorCallback(propertyName); } };
function objectLookup() { var keys = []; var values = []; this.save = function(key, value) { var existingIndex = ko.utils.arrayIndexOf(keys, key); if (existingIndex >= 0) values[existingIndex] = value; else { keys.push(key); values.push(value); } }; this.get = function(key) { var existingIndex = ko.utils.arrayIndexOf(keys, key); return (existingIndex >= 0) ? values[existingIndex] : undefined; }; };})();
ko.exportSymbol('toJS', ko.toJS);ko.exportSymbol('toJSON', ko.toJSON);(function () { var hasDomDataExpandoProperty = '__ko__hasDomDataOptionValue__';
// Normally, SELECT elements and their OPTIONs can only take value of type 'string' (because the values
// are stored on DOM attributes). ko.selectExtensions provides a way for SELECTs/OPTIONs to have values
// that are arbitrary objects. This is very convenient when implementing things like cascading dropdowns.
ko.selectExtensions = { readValue : function(element) { switch (ko.utils.tagNameLower(element)) { case 'option': if (element[hasDomDataExpandoProperty] === true) return ko.utils.domData.get(element, ko.bindingHandlers.options.optionValueDomDataKey); return ko.utils.ieVersion <= 7 ? (element.getAttributeNode('value').specified ? element.value : element.text) : element.value; case 'select': return element.selectedIndex >= 0 ? ko.selectExtensions.readValue(element.options[element.selectedIndex]) : undefined; default: return element.value; } },
writeValue: function(element, value) { switch (ko.utils.tagNameLower(element)) { case 'option': switch(typeof value) { case "string": ko.utils.domData.set(element, ko.bindingHandlers.options.optionValueDomDataKey, undefined); if (hasDomDataExpandoProperty in element) { // IE <= 8 throws errors if you delete non-existent properties from a DOM node
delete element[hasDomDataExpandoProperty]; } element.value = value; break; default: // Store arbitrary object using DomData
ko.utils.domData.set(element, ko.bindingHandlers.options.optionValueDomDataKey, value); element[hasDomDataExpandoProperty] = true;
// Special treatment of numbers is just for backward compatibility. KO 1.2.1 wrote numerical values to element.value.
element.value = typeof value === "number" ? value : ""; break; } break; case 'select': for (var i = element.options.length - 1; i >= 0; i--) { if (ko.selectExtensions.readValue(element.options[i]) == value) { element.selectedIndex = i; break; } } break; default: if ((value === null) || (value === undefined)) value = ""; element.value = value; break; } } };})();
ko.exportSymbol('selectExtensions', ko.selectExtensions);ko.exportSymbol('selectExtensions.readValue', ko.selectExtensions.readValue);ko.exportSymbol('selectExtensions.writeValue', ko.selectExtensions.writeValue);ko.expressionRewriting = (function () { var restoreCapturedTokensRegex = /\@ko_token_(\d+)\@/g; var javaScriptReservedWords = ["true", "false"];
// Matches something that can be assigned to--either an isolated identifier or something ending with a property accessor
// This is designed to be simple and avoid false negatives, but could produce false positives (e.g., a+b.c).
var javaScriptAssignmentTarget = /^(?:[$_a-z][$\w]*|(.+)(\.\s*[$_a-z][$\w]*|\[.+\]))$/i;
function restoreTokens(string, tokens) { var prevValue = null; while (string != prevValue) { // Keep restoring tokens until it no longer makes a difference (they may be nested)
prevValue = string; string = string.replace(restoreCapturedTokensRegex, function (match, tokenIndex) { return tokens[tokenIndex]; }); } return string; }
function getWriteableValue(expression) { if (ko.utils.arrayIndexOf(javaScriptReservedWords, ko.utils.stringTrim(expression).toLowerCase()) >= 0) return false; var match = expression.match(javaScriptAssignmentTarget); return match === null ? false : match[1] ? ('Object(' + match[1] + ')' + match[2]) : expression; }
function ensureQuoted(key) { var trimmedKey = ko.utils.stringTrim(key); switch (trimmedKey.length && trimmedKey.charAt(0)) { case "'": case '"': return key; default: return "'" + trimmedKey + "'"; } }
return { bindingRewriteValidators: [],
parseObjectLiteral: function(objectLiteralString) { // A full tokeniser+lexer would add too much weight to this library, so here's a simple parser
// that is sufficient just to split an object literal string into a set of top-level key-value pairs
var str = ko.utils.stringTrim(objectLiteralString); if (str.length < 3) return []; if (str.charAt(0) === "{")// Ignore any braces surrounding the whole object literal
str = str.substring(1, str.length - 1);
// Pull out any string literals and regex literals
var tokens = []; var tokenStart = null, tokenEndChar; for (var position = 0; position < str.length; position++) { var c = str.charAt(position); if (tokenStart === null) { switch (c) { case '"': case "'": case "/": tokenStart = position; tokenEndChar = c; break; } } else if ((c == tokenEndChar) && (str.charAt(position - 1) !== "\\")) { var token = str.substring(tokenStart, position + 1); tokens.push(token); var replacement = "@ko_token_" + (tokens.length - 1) + "@"; str = str.substring(0, tokenStart) + replacement + str.substring(position + 1); position -= (token.length - replacement.length); tokenStart = null; } }
// Next pull out balanced paren, brace, and bracket blocks
tokenStart = null; tokenEndChar = null; var tokenDepth = 0, tokenStartChar = null; for (var position = 0; position < str.length; position++) { var c = str.charAt(position); if (tokenStart === null) { switch (c) { case "{": tokenStart = position; tokenStartChar = c; tokenEndChar = "}"; break; case "(": tokenStart = position; tokenStartChar = c; tokenEndChar = ")"; break; case "[": tokenStart = position; tokenStartChar = c; tokenEndChar = "]"; break; } }
if (c === tokenStartChar) tokenDepth++; else if (c === tokenEndChar) { tokenDepth--; if (tokenDepth === 0) { var token = str.substring(tokenStart, position + 1); tokens.push(token); var replacement = "@ko_token_" + (tokens.length - 1) + "@"; str = str.substring(0, tokenStart) + replacement + str.substring(position + 1); position -= (token.length - replacement.length); tokenStart = null; } } }
// Now we can safely split on commas to get the key/value pairs
var result = []; var keyValuePairs = str.split(","); for (var i = 0, j = keyValuePairs.length; i < j; i++) { var pair = keyValuePairs[i]; var colonPos = pair.indexOf(":"); if ((colonPos > 0) && (colonPos < pair.length - 1)) { var key = pair.substring(0, colonPos); var value = pair.substring(colonPos + 1); result.push({ 'key': restoreTokens(key, tokens), 'value': restoreTokens(value, tokens) }); } else { result.push({ 'unknown': restoreTokens(pair, tokens) }); } } return result; },
preProcessBindings: function (objectLiteralStringOrKeyValueArray) { var keyValueArray = typeof objectLiteralStringOrKeyValueArray === "string" ? ko.expressionRewriting.parseObjectLiteral(objectLiteralStringOrKeyValueArray) : objectLiteralStringOrKeyValueArray; var resultStrings = [], propertyAccessorResultStrings = [];
var keyValueEntry; for (var i = 0; keyValueEntry = keyValueArray[i]; i++) { if (resultStrings.length > 0) resultStrings.push(",");
if (keyValueEntry['key']) { var quotedKey = ensureQuoted(keyValueEntry['key']), val = keyValueEntry['value']; resultStrings.push(quotedKey); resultStrings.push(":"); resultStrings.push(val);
if (val = getWriteableValue(ko.utils.stringTrim(val))) { if (propertyAccessorResultStrings.length > 0) propertyAccessorResultStrings.push(", "); propertyAccessorResultStrings.push(quotedKey + " : function(__ko_value) { " + val + " = __ko_value; }"); } } else if (keyValueEntry['unknown']) { resultStrings.push(keyValueEntry['unknown']); } }
var combinedResult = resultStrings.join(""); if (propertyAccessorResultStrings.length > 0) { var allPropertyAccessors = propertyAccessorResultStrings.join(""); combinedResult = combinedResult + ", '_ko_property_writers' : { " + allPropertyAccessors + " } "; }
return combinedResult; },
keyValueArrayContainsKey: function(keyValueArray, key) { for (var i = 0; i < keyValueArray.length; i++) if (ko.utils.stringTrim(keyValueArray[i]['key']) == key) return true; return false; },
// Internal, private KO utility for updating model properties from within bindings
// property: If the property being updated is (or might be) an observable, pass it here
// If it turns out to be a writable observable, it will be written to directly
// allBindingsAccessor: All bindings in the current execution context.
// This will be searched for a '_ko_property_writers' property in case you're writing to a non-observable
// key: The key identifying the property to be written. Example: for { hasFocus: myValue }, write to 'myValue' by specifying the key 'hasFocus'
// value: The value to be written
// checkIfDifferent: If true, and if the property being written is a writable observable, the value will only be written if
// it is !== existing value on that writable observable
writeValueToProperty: function(property, allBindingsAccessor, key, value, checkIfDifferent) { if (!property || !ko.isWriteableObservable(property)) { var propWriters = allBindingsAccessor()['_ko_property_writers']; if (propWriters && propWriters[key]) propWriters[key](value); } else if (!checkIfDifferent || property.peek() !== value) { property(value); } } };})();
ko.exportSymbol('expressionRewriting', ko.expressionRewriting);ko.exportSymbol('expressionRewriting.bindingRewriteValidators', ko.expressionRewriting.bindingRewriteValidators);ko.exportSymbol('expressionRewriting.parseObjectLiteral', ko.expressionRewriting.parseObjectLiteral);ko.exportSymbol('expressionRewriting.preProcessBindings', ko.expressionRewriting.preProcessBindings);
// For backward compatibility, define the following aliases. (Previously, these function names were misleading because
// they referred to JSON specifically, even though they actually work with arbitrary JavaScript object literal expressions.)
ko.exportSymbol('jsonExpressionRewriting', ko.expressionRewriting);ko.exportSymbol('jsonExpressionRewriting.insertPropertyAccessorsIntoJson', ko.expressionRewriting.preProcessBindings);(function() { // "Virtual elements" is an abstraction on top of the usual DOM API which understands the notion that comment nodes
// may be used to represent hierarchy (in addition to the DOM's natural hierarchy).
// If you call the DOM-manipulating functions on ko.virtualElements, you will be able to read and write the state
// of that virtual hierarchy
//
// The point of all this is to support containerless templates (e.g., <!-- ko foreach:someCollection -->blah<!-- /ko -->)
// without having to scatter special cases all over the binding and templating code.
// IE 9 cannot reliably read the "nodeValue" property of a comment node (see https://github.com/SteveSanderson/knockout/issues/186)
// but it does give them a nonstandard alternative property called "text" that it can read reliably. Other browsers don't have that property.
// So, use node.text where available, and node.nodeValue elsewhere
var commentNodesHaveTextProperty = document.createComment("test").text === "<!--test-->";
var startCommentRegex = commentNodesHaveTextProperty ? /^<!--\s*ko(?:\s+(.+\s*\:[\s\S]*))?\s*-->$/ : /^\s*ko(?:\s+(.+\s*\:[\s\S]*))?\s*$/; var endCommentRegex = commentNodesHaveTextProperty ? /^<!--\s*\/ko\s*-->$/ : /^\s*\/ko\s*$/; var htmlTagsWithOptionallyClosingChildren = { 'ul': true, 'ol': true };
function isStartComment(node) { return (node.nodeType == 8) && (commentNodesHaveTextProperty ? node.text : node.nodeValue).match(startCommentRegex); }
function isEndComment(node) { return (node.nodeType == 8) && (commentNodesHaveTextProperty ? node.text : node.nodeValue).match(endCommentRegex); }
function getVirtualChildren(startComment, allowUnbalanced) { var currentNode = startComment; var depth = 1; var children = []; while (currentNode = currentNode.nextSibling) { if (isEndComment(currentNode)) { depth--; if (depth === 0) return children; }
children.push(currentNode);
if (isStartComment(currentNode)) depth++; } if (!allowUnbalanced) throw new Error("Cannot find closing comment tag to match: " + startComment.nodeValue); return null; }
function getMatchingEndComment(startComment, allowUnbalanced) { var allVirtualChildren = getVirtualChildren(startComment, allowUnbalanced); if (allVirtualChildren) { if (allVirtualChildren.length > 0) return allVirtualChildren[allVirtualChildren.length - 1].nextSibling; return startComment.nextSibling; } else return null; // Must have no matching end comment, and allowUnbalanced is true
}
function getUnbalancedChildTags(node) { // e.g., from <div>OK</div><!-- ko blah --><span>Another</span>, returns: <!-- ko blah --><span>Another</span>
// from <div>OK</div><!-- /ko --><!-- /ko -->, returns: <!-- /ko --><!-- /ko -->
var childNode = node.firstChild, captureRemaining = null; if (childNode) { do { if (captureRemaining) // We already hit an unbalanced node and are now just scooping up all subsequent nodes
captureRemaining.push(childNode); else if (isStartComment(childNode)) { var matchingEndComment = getMatchingEndComment(childNode, /* allowUnbalanced: */ true); if (matchingEndComment) // It's a balanced tag, so skip immediately to the end of this virtual set
childNode = matchingEndComment; else captureRemaining = [childNode]; // It's unbalanced, so start capturing from this point
} else if (isEndComment(childNode)) { captureRemaining = [childNode]; // It's unbalanced (if it wasn't, we'd have skipped over it already), so start capturing
} } while (childNode = childNode.nextSibling); } return captureRemaining; }
ko.virtualElements = { allowedBindings: {},
childNodes: function(node) { return isStartComment(node) ? getVirtualChildren(node) : node.childNodes; },
emptyNode: function(node) { if (!isStartComment(node)) ko.utils.emptyDomNode(node); else { var virtualChildren = ko.virtualElements.childNodes(node); for (var i = 0, j = virtualChildren.length; i < j; i++) ko.removeNode(virtualChildren[i]); } },
setDomNodeChildren: function(node, childNodes) { if (!isStartComment(node)) ko.utils.setDomNodeChildren(node, childNodes); else { ko.virtualElements.emptyNode(node); var endCommentNode = node.nextSibling; // Must be the next sibling, as we just emptied the children
for (var i = 0, j = childNodes.length; i < j; i++) endCommentNode.parentNode.insertBefore(childNodes[i], endCommentNode); } },
prepend: function(containerNode, nodeToPrepend) { if (!isStartComment(containerNode)) { if (containerNode.firstChild) containerNode.insertBefore(nodeToPrepend, containerNode.firstChild); else containerNode.appendChild(nodeToPrepend); } else { // Start comments must always have a parent and at least one following sibling (the end comment)
containerNode.parentNode.insertBefore(nodeToPrepend, containerNode.nextSibling); } },
insertAfter: function(containerNode, nodeToInsert, insertAfterNode) { if (!insertAfterNode) { ko.virtualElements.prepend(containerNode, nodeToInsert); } else if (!isStartComment(containerNode)) { // Insert after insertion point
if (insertAfterNode.nextSibling) containerNode.insertBefore(nodeToInsert, insertAfterNode.nextSibling); else containerNode.appendChild(nodeToInsert); } else { // Children of start comments must always have a parent and at least one following sibling (the end comment)
containerNode.parentNode.insertBefore(nodeToInsert, insertAfterNode.nextSibling); } },
firstChild: function(node) { if (!isStartComment(node)) return node.firstChild; if (!node.nextSibling || isEndComment(node.nextSibling)) return null; return node.nextSibling; },
nextSibling: function(node) { if (isStartComment(node)) node = getMatchingEndComment(node); if (node.nextSibling && isEndComment(node.nextSibling)) return null; return node.nextSibling; },
virtualNodeBindingValue: function(node) { var regexMatch = isStartComment(node); return regexMatch ? regexMatch[1] : null; },
normaliseVirtualElementDomStructure: function(elementVerified) { // Workaround for https://github.com/SteveSanderson/knockout/issues/155
// (IE <= 8 or IE 9 quirks mode parses your HTML weirdly, treating closing </li> tags as if they don't exist, thereby moving comment nodes
// that are direct descendants of <ul> into the preceding <li>)
if (!htmlTagsWithOptionallyClosingChildren[ko.utils.tagNameLower(elementVerified)]) return;
// Scan immediate children to see if they contain unbalanced comment tags. If they do, those comment tags
// must be intended to appear *after* that child, so move them there.
var childNode = elementVerified.firstChild; if (childNode) { do { if (childNode.nodeType === 1) { var unbalancedTags = getUnbalancedChildTags(childNode); if (unbalancedTags) { // Fix up the DOM by moving the unbalanced tags to where they most likely were intended to be placed - *after* the child
var nodeToInsertBefore = childNode.nextSibling; for (var i = 0; i < unbalancedTags.length; i++) { if (nodeToInsertBefore) elementVerified.insertBefore(unbalancedTags[i], nodeToInsertBefore); else elementVerified.appendChild(unbalancedTags[i]); } } } } while (childNode = childNode.nextSibling); } } };})();ko.exportSymbol('virtualElements', ko.virtualElements);ko.exportSymbol('virtualElements.allowedBindings', ko.virtualElements.allowedBindings);ko.exportSymbol('virtualElements.emptyNode', ko.virtualElements.emptyNode);//ko.exportSymbol('virtualElements.firstChild', ko.virtualElements.firstChild); // firstChild is not minified
ko.exportSymbol('virtualElements.insertAfter', ko.virtualElements.insertAfter);//ko.exportSymbol('virtualElements.nextSibling', ko.virtualElements.nextSibling); // nextSibling is not minified
ko.exportSymbol('virtualElements.prepend', ko.virtualElements.prepend);ko.exportSymbol('virtualElements.setDomNodeChildren', ko.virtualElements.setDomNodeChildren);(function() { var defaultBindingAttributeName = "data-bind";
ko.bindingProvider = function() { this.bindingCache = {}; };
ko.utils.extend(ko.bindingProvider.prototype, { 'nodeHasBindings': function(node) { switch (node.nodeType) { case 1: return node.getAttribute(defaultBindingAttributeName) != null; // Element
case 8: return ko.virtualElements.virtualNodeBindingValue(node) != null; // Comment node
default: return false; } },
'getBindings': function(node, bindingContext) { var bindingsString = this['getBindingsString'](node, bindingContext); return bindingsString ? this['parseBindingsString'](bindingsString, bindingContext, node) : null; },
// The following function is only used internally by this default provider.
// It's not part of the interface definition for a general binding provider.
'getBindingsString': function(node, bindingContext) { switch (node.nodeType) { case 1: return node.getAttribute(defaultBindingAttributeName); // Element
case 8: return ko.virtualElements.virtualNodeBindingValue(node); // Comment node
default: return null; } },
// The following function is only used internally by this default provider.
// It's not part of the interface definition for a general binding provider.
'parseBindingsString': function(bindingsString, bindingContext, node) { try { var bindingFunction = createBindingsStringEvaluatorViaCache(bindingsString, this.bindingCache); return bindingFunction(bindingContext, node); } catch (ex) { throw new Error("Unable to parse bindings.\nMessage: " + ex + ";\nBindings value: " + bindingsString); } } });
ko.bindingProvider['instance'] = new ko.bindingProvider();
function createBindingsStringEvaluatorViaCache(bindingsString, cache) { var cacheKey = bindingsString; return cache[cacheKey] || (cache[cacheKey] = createBindingsStringEvaluator(bindingsString)); }
function createBindingsStringEvaluator(bindingsString) { // Build the source for a function that evaluates "expression"
// For each scope variable, add an extra level of "with" nesting
// Example result: with(sc1) { with(sc0) { return (expression) } }
var rewrittenBindings = ko.expressionRewriting.preProcessBindings(bindingsString), functionBody = "with($context){with($data||{}){return{" + rewrittenBindings + "}}}"; return new Function("$context", "$element", functionBody); }})();
ko.exportSymbol('bindingProvider', ko.bindingProvider);(function () { ko.bindingHandlers = {};
ko.bindingContext = function(dataItem, parentBindingContext, dataItemAlias) { if (parentBindingContext) { ko.utils.extend(this, parentBindingContext); // Inherit $root and any custom properties
this['$parentContext'] = parentBindingContext; this['$parent'] = parentBindingContext['$data']; this['$parents'] = (parentBindingContext['$parents'] || []).slice(0); this['$parents'].unshift(this['$parent']); } else { this['$parents'] = []; this['$root'] = dataItem; // Export 'ko' in the binding context so it will be available in bindings and templates
// even if 'ko' isn't exported as a global, such as when using an AMD loader.
// See https://github.com/SteveSanderson/knockout/issues/490
this['ko'] = ko; } this['$data'] = dataItem; if (dataItemAlias) this[dataItemAlias] = dataItem; } ko.bindingContext.prototype['createChildContext'] = function (dataItem, dataItemAlias) { return new ko.bindingContext(dataItem, this, dataItemAlias); }; ko.bindingContext.prototype['extend'] = function(properties) { var clone = ko.utils.extend(new ko.bindingContext(), this); return ko.utils.extend(clone, properties); };
function validateThatBindingIsAllowedForVirtualElements(bindingName) { var validator = ko.virtualElements.allowedBindings[bindingName]; if (!validator) throw new Error("The binding '" + bindingName + "' cannot be used with virtual elements") }
function applyBindingsToDescendantsInternal (viewModel, elementOrVirtualElement, bindingContextsMayDifferFromDomParentElement) { var currentChild, nextInQueue = ko.virtualElements.firstChild(elementOrVirtualElement); while (currentChild = nextInQueue) { // Keep a record of the next child *before* applying bindings, in case the binding removes the current child from its position
nextInQueue = ko.virtualElements.nextSibling(currentChild); applyBindingsToNodeAndDescendantsInternal(viewModel, currentChild, bindingContextsMayDifferFromDomParentElement); } }
function applyBindingsToNodeAndDescendantsInternal (viewModel, nodeVerified, bindingContextMayDifferFromDomParentElement) { var shouldBindDescendants = true;
// Perf optimisation: Apply bindings only if...
// (1) We need to store the binding context on this node (because it may differ from the DOM parent node's binding context)
// Note that we can't store binding contexts on non-elements (e.g., text nodes), as IE doesn't allow expando properties for those
// (2) It might have bindings (e.g., it has a data-bind attribute, or it's a marker for a containerless template)
var isElement = (nodeVerified.nodeType === 1); if (isElement) // Workaround IE <= 8 HTML parsing weirdness
ko.virtualElements.normaliseVirtualElementDomStructure(nodeVerified);
var shouldApplyBindings = (isElement && bindingContextMayDifferFromDomParentElement) // Case (1)
|| ko.bindingProvider['instance']['nodeHasBindings'](nodeVerified); // Case (2)
if (shouldApplyBindings) shouldBindDescendants = applyBindingsToNodeInternal(nodeVerified, null, viewModel, bindingContextMayDifferFromDomParentElement).shouldBindDescendants;
if (shouldBindDescendants) { // We're recursing automatically into (real or virtual) child nodes without changing binding contexts. So,
// * For children of a *real* element, the binding context is certainly the same as on their DOM .parentNode,
// hence bindingContextsMayDifferFromDomParentElement is false
// * For children of a *virtual* element, we can't be sure. Evaluating .parentNode on those children may
// skip over any number of intermediate virtual elements, any of which might define a custom binding context,
// hence bindingContextsMayDifferFromDomParentElement is true
applyBindingsToDescendantsInternal(viewModel, nodeVerified, /* bindingContextsMayDifferFromDomParentElement: */ !isElement); } }
function applyBindingsToNodeInternal (node, bindings, viewModelOrBindingContext, bindingContextMayDifferFromDomParentElement) { // Need to be sure that inits are only run once, and updates never run until all the inits have been run
var initPhase = 0; // 0 = before all inits, 1 = during inits, 2 = after all inits
// Each time the dependentObservable is evaluated (after data changes),
// the binding attribute is reparsed so that it can pick out the correct
// model properties in the context of the changed data.
// DOM event callbacks need to be able to access this changed data,
// so we need a single parsedBindings variable (shared by all callbacks
// associated with this node's bindings) that all the closures can access.
var parsedBindings; function makeValueAccessor(bindingKey) { return function () { return parsedBindings[bindingKey] } } function parsedBindingsAccessor() { return parsedBindings; }
var bindingHandlerThatControlsDescendantBindings; ko.dependentObservable( function () { // Ensure we have a nonnull binding context to work with
var bindingContextInstance = viewModelOrBindingContext && (viewModelOrBindingContext instanceof ko.bindingContext) ? viewModelOrBindingContext : new ko.bindingContext(ko.utils.unwrapObservable(viewModelOrBindingContext)); var viewModel = bindingContextInstance['$data'];
// Optimization: Don't store the binding context on this node if it's definitely the same as on node.parentNode, because
// we can easily recover it just by scanning up the node's ancestors in the DOM
// (note: here, parent node means "real DOM parent" not "virtual parent", as there's no O(1) way to find the virtual parent)
if (bindingContextMayDifferFromDomParentElement) ko.storedBindingContextForNode(node, bindingContextInstance);
// Use evaluatedBindings if given, otherwise fall back on asking the bindings provider to give us some bindings
var evaluatedBindings = (typeof bindings == "function") ? bindings(bindingContextInstance, node) : bindings; parsedBindings = evaluatedBindings || ko.bindingProvider['instance']['getBindings'](node, bindingContextInstance);
if (parsedBindings) { // First run all the inits, so bindings can register for notification on changes
if (initPhase === 0) { initPhase = 1; for (var bindingKey in parsedBindings) { var binding = ko.bindingHandlers[bindingKey]; if (binding && node.nodeType === 8) validateThatBindingIsAllowedForVirtualElements(bindingKey);
if (binding && typeof binding["init"] == "function") { var handlerInitFn = binding["init"]; var initResult = handlerInitFn(node, makeValueAccessor(bindingKey), parsedBindingsAccessor, viewModel, bindingContextInstance);
// If this binding handler claims to control descendant bindings, make a note of this
if (initResult && initResult['controlsDescendantBindings']) { if (bindingHandlerThatControlsDescendantBindings !== undefined) throw new Error("Multiple bindings (" + bindingHandlerThatControlsDescendantBindings + " and " + bindingKey + ") are trying to control descendant bindings of the same element. You cannot use these bindings together on the same element."); bindingHandlerThatControlsDescendantBindings = bindingKey; } } } initPhase = 2; }
// ... then run all the updates, which might trigger changes even on the first evaluation
if (initPhase === 2) { for (var bindingKey in parsedBindings) { var binding = ko.bindingHandlers[bindingKey]; if (binding && typeof binding["update"] == "function") { var handlerUpdateFn = binding["update"]; handlerUpdateFn(node, makeValueAccessor(bindingKey), parsedBindingsAccessor, viewModel, bindingContextInstance); } } } } }, null, { disposeWhenNodeIsRemoved : node } );
return { shouldBindDescendants: bindingHandlerThatControlsDescendantBindings === undefined }; };
var storedBindingContextDomDataKey = "__ko_bindingContext__"; ko.storedBindingContextForNode = function (node, bindingContext) { if (arguments.length == 2) ko.utils.domData.set(node, storedBindingContextDomDataKey, bindingContext); else return ko.utils.domData.get(node, storedBindingContextDomDataKey); }
ko.applyBindingsToNode = function (node, bindings, viewModel) { if (node.nodeType === 1) // If it's an element, workaround IE <= 8 HTML parsing weirdness
ko.virtualElements.normaliseVirtualElementDomStructure(node); return applyBindingsToNodeInternal(node, bindings, viewModel, true); };
ko.applyBindingsToDescendants = function(viewModel, rootNode) { if (rootNode.nodeType === 1 || rootNode.nodeType === 8) applyBindingsToDescendantsInternal(viewModel, rootNode, true); };
ko.applyBindings = function (viewModel, rootNode) { if (rootNode && (rootNode.nodeType !== 1) && (rootNode.nodeType !== 8)) throw new Error("ko.applyBindings: first parameter should be your view model; second parameter should be a DOM node"); rootNode = rootNode || window.document.body; // Make "rootNode" parameter optional
applyBindingsToNodeAndDescendantsInternal(viewModel, rootNode, true); };
// Retrieving binding context from arbitrary nodes
ko.contextFor = function(node) { // We can only do something meaningful for elements and comment nodes (in particular, not text nodes, as IE can't store domdata for them)
switch (node.nodeType) { case 1: case 8: var context = ko.storedBindingContextForNode(node); if (context) return context; if (node.parentNode) return ko.contextFor(node.parentNode); break; } return undefined; }; ko.dataFor = function(node) { var context = ko.contextFor(node); return context ? context['$data'] : undefined; };
ko.exportSymbol('bindingHandlers', ko.bindingHandlers); ko.exportSymbol('applyBindings', ko.applyBindings); ko.exportSymbol('applyBindingsToDescendants', ko.applyBindingsToDescendants); ko.exportSymbol('applyBindingsToNode', ko.applyBindingsToNode); ko.exportSymbol('contextFor', ko.contextFor); ko.exportSymbol('dataFor', ko.dataFor);})();var attrHtmlToJavascriptMap = { 'class': 'className', 'for': 'htmlFor' };ko.bindingHandlers['attr'] = { 'update': function(element, valueAccessor, allBindingsAccessor) { var value = ko.utils.unwrapObservable(valueAccessor()) || {}; for (var attrName in value) { if (typeof attrName == "string") { var attrValue = ko.utils.unwrapObservable(value[attrName]);
// To cover cases like "attr: { checked:someProp }", we want to remove the attribute entirely
// when someProp is a "no value"-like value (strictly null, false, or undefined)
// (because the absence of the "checked" attr is how to mark an element as not checked, etc.)
var toRemove = (attrValue === false) || (attrValue === null) || (attrValue === undefined); if (toRemove) element.removeAttribute(attrName);
// In IE <= 7 and IE8 Quirks Mode, you have to use the Javascript property name instead of the
// HTML attribute name for certain attributes. IE8 Standards Mode supports the correct behavior,
// but instead of figuring out the mode, we'll just set the attribute through the Javascript
// property for IE <= 8.
if (ko.utils.ieVersion <= 8 && attrName in attrHtmlToJavascriptMap) { attrName = attrHtmlToJavascriptMap[attrName]; if (toRemove) element.removeAttribute(attrName); else element[attrName] = attrValue; } else if (!toRemove) { element.setAttribute(attrName, attrValue.toString()); }
// Treat "name" specially - although you can think of it as an attribute, it also needs
// special handling on older versions of IE (https://github.com/SteveSanderson/knockout/pull/333)
// Deliberately being case-sensitive here because XHTML would regard "Name" as a different thing
// entirely, and there's no strong reason to allow for such casing in HTML.
if (attrName === "name") { ko.utils.setElementName(element, toRemove ? "" : attrValue.toString()); } } } }};ko.bindingHandlers['checked'] = { 'init': function (element, valueAccessor, allBindingsAccessor) { var updateHandler = function() { var valueToWrite; if (element.type == "checkbox") { valueToWrite = element.checked; } else if ((element.type == "radio") && (element.checked)) { valueToWrite = element.value; } else { return; // "checked" binding only responds to checkboxes and selected radio buttons
}
var modelValue = valueAccessor(), unwrappedValue = ko.utils.unwrapObservable(modelValue); if ((element.type == "checkbox") && (unwrappedValue instanceof Array)) { // For checkboxes bound to an array, we add/remove the checkbox value to that array
// This works for both observable and non-observable arrays
var existingEntryIndex = ko.utils.arrayIndexOf(unwrappedValue, element.value); if (element.checked && (existingEntryIndex < 0)) modelValue.push(element.value); else if ((!element.checked) && (existingEntryIndex >= 0)) modelValue.splice(existingEntryIndex, 1); } else { ko.expressionRewriting.writeValueToProperty(modelValue, allBindingsAccessor, 'checked', valueToWrite, true); } }; ko.utils.registerEventHandler(element, "click", updateHandler);
// IE 6 won't allow radio buttons to be selected unless they have a name
if ((element.type == "radio") && !element.name) ko.bindingHandlers['uniqueName']['init'](element, function() { return true }); }, 'update': function (element, valueAccessor) { var value = ko.utils.unwrapObservable(valueAccessor());
if (element.type == "checkbox") { if (value instanceof Array) { // When bound to an array, the checkbox being checked represents its value being present in that array
element.checked = ko.utils.arrayIndexOf(value, element.value) >= 0; } else { // When bound to anything other value (not an array), the checkbox being checked represents the value being trueish
element.checked = value; } } else if (element.type == "radio") { element.checked = (element.value == value); } }};var classesWrittenByBindingKey = '__ko__cssValue';ko.bindingHandlers['css'] = { 'update': function (element, valueAccessor) { var value = ko.utils.unwrapObservable(valueAccessor()); if (typeof value == "object") { for (var className in value) { var shouldHaveClass = ko.utils.unwrapObservable(value[className]); ko.utils.toggleDomNodeCssClass(element, className, shouldHaveClass); } } else { value = String(value || ''); // Make sure we don't try to store or set a non-string value
ko.utils.toggleDomNodeCssClass(element, element[classesWrittenByBindingKey], false); element[classesWrittenByBindingKey] = value; ko.utils.toggleDomNodeCssClass(element, value, true); } }};ko.bindingHandlers['enable'] = { 'update': function (element, valueAccessor) { var value = ko.utils.unwrapObservable(valueAccessor()); if (value && element.disabled) element.removeAttribute("disabled"); else if ((!value) && (!element.disabled)) element.disabled = true; }};
ko.bindingHandlers['disable'] = { 'update': function (element, valueAccessor) { ko.bindingHandlers['enable']['update'](element, function() { return !ko.utils.unwrapObservable(valueAccessor()) }); }};// For certain common events (currently just 'click'), allow a simplified data-binding syntax
// e.g. click:handler instead of the usual full-length event:{click:handler}
function makeEventHandlerShortcut(eventName) { ko.bindingHandlers[eventName] = { 'init': function(element, valueAccessor, allBindingsAccessor, viewModel) { var newValueAccessor = function () { var result = {}; result[eventName] = valueAccessor(); return result; }; return ko.bindingHandlers['event']['init'].call(this, element, newValueAccessor, allBindingsAccessor, viewModel); } }}
ko.bindingHandlers['event'] = { 'init' : function (element, valueAccessor, allBindingsAccessor, viewModel) { var eventsToHandle = valueAccessor() || {}; for(var eventNameOutsideClosure in eventsToHandle) { (function() { var eventName = eventNameOutsideClosure; // Separate variable to be captured by event handler closure
if (typeof eventName == "string") { ko.utils.registerEventHandler(element, eventName, function (event) { var handlerReturnValue; var handlerFunction = valueAccessor()[eventName]; if (!handlerFunction) return; var allBindings = allBindingsAccessor();
try { // Take all the event args, and prefix with the viewmodel
var argsForHandler = ko.utils.makeArray(arguments); argsForHandler.unshift(viewModel); handlerReturnValue = handlerFunction.apply(viewModel, argsForHandler); } finally { if (handlerReturnValue !== true) { // Normally we want to prevent default action. Developer can override this be explicitly returning true.
if (event.preventDefault) event.preventDefault(); else event.returnValue = false; } }
var bubble = allBindings[eventName + 'Bubble'] !== false; if (!bubble) { event.cancelBubble = true; if (event.stopPropagation) event.stopPropagation(); } }); } })(); } }};// "foreach: someExpression" is equivalent to "template: { foreach: someExpression }"
// "foreach: { data: someExpression, afterAdd: myfn }" is equivalent to "template: { foreach: someExpression, afterAdd: myfn }"
ko.bindingHandlers['foreach'] = { makeTemplateValueAccessor: function(valueAccessor) { return function() { var modelValue = valueAccessor(), unwrappedValue = ko.utils.peekObservable(modelValue); // Unwrap without setting a dependency here
// If unwrappedValue is the array, pass in the wrapped value on its own
// The value will be unwrapped and tracked within the template binding
// (See https://github.com/SteveSanderson/knockout/issues/523)
if ((!unwrappedValue) || typeof unwrappedValue.length == "number") return { 'foreach': modelValue, 'templateEngine': ko.nativeTemplateEngine.instance };
// If unwrappedValue.data is the array, preserve all relevant options and unwrap again value so we get updates
ko.utils.unwrapObservable(modelValue); return { 'foreach': unwrappedValue['data'], 'as': unwrappedValue['as'], 'includeDestroyed': unwrappedValue['includeDestroyed'], 'afterAdd': unwrappedValue['afterAdd'], 'beforeRemove': unwrappedValue['beforeRemove'], 'afterRender': unwrappedValue['afterRender'], 'beforeMove': unwrappedValue['beforeMove'], 'afterMove': unwrappedValue['afterMove'], 'templateEngine': ko.nativeTemplateEngine.instance }; }; }, 'init': function(element, valueAccessor, allBindingsAccessor, viewModel, bindingContext) { return ko.bindingHandlers['template']['init'](element, ko.bindingHandlers['foreach'].makeTemplateValueAccessor(valueAccessor)); }, 'update': function(element, valueAccessor, allBindingsAccessor, viewModel, bindingContext) { return ko.bindingHandlers['template']['update'](element, ko.bindingHandlers['foreach'].makeTemplateValueAccessor(valueAccessor), allBindingsAccessor, viewModel, bindingContext); }};ko.expressionRewriting.bindingRewriteValidators['foreach'] = false; // Can't rewrite control flow bindings
ko.virtualElements.allowedBindings['foreach'] = true;var hasfocusUpdatingProperty = '__ko_hasfocusUpdating';ko.bindingHandlers['hasfocus'] = { 'init': function(element, valueAccessor, allBindingsAccessor) { var handleElementFocusChange = function(isFocused) { // Where possible, ignore which event was raised and determine focus state using activeElement,
// as this avoids phantom focus/blur events raised when changing tabs in modern browsers.
// However, not all KO-targeted browsers (Firefox 2) support activeElement. For those browsers,
// prevent a loss of focus when changing tabs/windows by setting a flag that prevents hasfocus
// from calling 'blur()' on the element when it loses focus.
// Discussion at https://github.com/SteveSanderson/knockout/pull/352
element[hasfocusUpdatingProperty] = true; var ownerDoc = element.ownerDocument; if ("activeElement" in ownerDoc) { isFocused = (ownerDoc.activeElement === element); } var modelValue = valueAccessor(); ko.expressionRewriting.writeValueToProperty(modelValue, allBindingsAccessor, 'hasfocus', isFocused, true); element[hasfocusUpdatingProperty] = false; }; var handleElementFocusIn = handleElementFocusChange.bind(null, true); var handleElementFocusOut = handleElementFocusChange.bind(null, false);
ko.utils.registerEventHandler(element, "focus", handleElementFocusIn); ko.utils.registerEventHandler(element, "focusin", handleElementFocusIn); // For IE
ko.utils.registerEventHandler(element, "blur", handleElementFocusOut); ko.utils.registerEventHandler(element, "focusout", handleElementFocusOut); // For IE
}, 'update': function(element, valueAccessor) { var value = ko.utils.unwrapObservable(valueAccessor()); if (!element[hasfocusUpdatingProperty]) { value ? element.focus() : element.blur(); ko.dependencyDetection.ignore(ko.utils.triggerEvent, null, [element, value ? "focusin" : "focusout"]); // For IE, which doesn't reliably fire "focus" or "blur" events synchronously
} }};ko.bindingHandlers['html'] = { 'init': function() { // Prevent binding on the dynamically-injected HTML (as developers are unlikely to expect that, and it has security implications)
return { 'controlsDescendantBindings': true }; }, 'update': function (element, valueAccessor) { // setHtml will unwrap the value if needed
ko.utils.setHtml(element, valueAccessor()); }};var withIfDomDataKey = '__ko_withIfBindingData';// Makes a binding like with or if
function makeWithIfBinding(bindingKey, isWith, isNot, makeContextCallback) { ko.bindingHandlers[bindingKey] = { 'init': function(element, valueAccessor, allBindingsAccessor, viewModel, bindingContext) { ko.utils.domData.set(element, withIfDomDataKey, {}); return { 'controlsDescendantBindings': true }; }, 'update': function(element, valueAccessor, allBindingsAccessor, viewModel, bindingContext) { var withIfData = ko.utils.domData.get(element, withIfDomDataKey), dataValue = ko.utils.unwrapObservable(valueAccessor()), shouldDisplay = !isNot !== !dataValue, // equivalent to isNot ? !dataValue : !!dataValue
isFirstRender = !withIfData.savedNodes, needsRefresh = isFirstRender || isWith || (shouldDisplay !== withIfData.didDisplayOnLastUpdate);
if (needsRefresh) { if (isFirstRender) { withIfData.savedNodes = ko.utils.cloneNodes(ko.virtualElements.childNodes(element), true /* shouldCleanNodes */); }
if (shouldDisplay) { if (!isFirstRender) { ko.virtualElements.setDomNodeChildren(element, ko.utils.cloneNodes(withIfData.savedNodes)); } ko.applyBindingsToDescendants(makeContextCallback ? makeContextCallback(bindingContext, dataValue) : bindingContext, element); } else { ko.virtualElements.emptyNode(element); }
withIfData.didDisplayOnLastUpdate = shouldDisplay; } } }; ko.expressionRewriting.bindingRewriteValidators[bindingKey] = false; // Can't rewrite control flow bindings
ko.virtualElements.allowedBindings[bindingKey] = true;}
// Construct the actual binding handlers
makeWithIfBinding('if');makeWithIfBinding('ifnot', false /* isWith */, true /* isNot */);makeWithIfBinding('with', true /* isWith */, false /* isNot */, function(bindingContext, dataValue) { return bindingContext['createChildContext'](dataValue); });function ensureDropdownSelectionIsConsistentWithModelValue(element, modelValue, preferModelValue) { if (preferModelValue) { if (modelValue !== ko.selectExtensions.readValue(element)) ko.selectExtensions.writeValue(element, modelValue); }
// No matter which direction we're syncing in, we want the end result to be equality between dropdown value and model value.
// If they aren't equal, either we prefer the dropdown value, or the model value couldn't be represented, so either way,
// change the model value to match the dropdown.
if (modelValue !== ko.selectExtensions.readValue(element)) ko.dependencyDetection.ignore(ko.utils.triggerEvent, null, [element, "change"]);};
ko.bindingHandlers['options'] = { 'update': function (element, valueAccessor, allBindingsAccessor) { if (ko.utils.tagNameLower(element) !== "select") throw new Error("options binding applies only to SELECT elements");
var selectWasPreviouslyEmpty = element.length == 0; var previousSelectedValues = ko.utils.arrayMap(ko.utils.arrayFilter(element.childNodes, function (node) { return node.tagName && (ko.utils.tagNameLower(node) === "option") && node.selected; }), function (node) { return ko.selectExtensions.readValue(node) || node.innerText || node.textContent; }); var previousScrollTop = element.scrollTop;
var value = ko.utils.unwrapObservable(valueAccessor()); var selectedValue = element.value;
// Remove all existing <option>s.
// Need to use .remove() rather than .removeChild() for <option>s otherwise IE behaves oddly (https://github.com/SteveSanderson/knockout/issues/134)
while (element.length > 0) { ko.cleanNode(element.options[0]); element.remove(0); }
if (value) { var allBindings = allBindingsAccessor(), includeDestroyed = allBindings['optionsIncludeDestroyed'];
if (typeof value.length != "number") value = [value]; if (allBindings['optionsCaption']) { var option = document.createElement("option"); ko.utils.setHtml(option, allBindings['optionsCaption']); ko.selectExtensions.writeValue(option, undefined); element.appendChild(option); }
for (var i = 0, j = value.length; i < j; i++) { // Skip destroyed items
var arrayEntry = value[i]; if (arrayEntry && arrayEntry['_destroy'] && !includeDestroyed) continue;
var option = document.createElement("option");
function applyToObject(object, predicate, defaultValue) { var predicateType = typeof predicate; if (predicateType == "function") // Given a function; run it against the data value
return predicate(object); else if (predicateType == "string") // Given a string; treat it as a property name on the data value
return object[predicate]; else // Given no optionsText arg; use the data value itself
return defaultValue; }
// Apply a value to the option element
var optionValue = applyToObject(arrayEntry, allBindings['optionsValue'], arrayEntry); ko.selectExtensions.writeValue(option, ko.utils.unwrapObservable(optionValue));
// Apply some text to the option element
var optionText = applyToObject(arrayEntry, allBindings['optionsText'], optionValue); ko.utils.setTextContent(option, optionText);
element.appendChild(option); }
// IE6 doesn't like us to assign selection to OPTION nodes before they're added to the document.
// That's why we first added them without selection. Now it's time to set the selection.
var newOptions = element.getElementsByTagName("option"); var countSelectionsRetained = 0; for (var i = 0, j = newOptions.length; i < j; i++) { if (ko.utils.arrayIndexOf(previousSelectedValues, ko.selectExtensions.readValue(newOptions[i])) >= 0) { ko.utils.setOptionNodeSelectionState(newOptions[i], true); countSelectionsRetained++; } }
element.scrollTop = previousScrollTop;
if (selectWasPreviouslyEmpty && ('value' in allBindings)) { // Ensure consistency between model value and selected option.
// If the dropdown is being populated for the first time here (or was otherwise previously empty),
// the dropdown selection state is meaningless, so we preserve the model value.
ensureDropdownSelectionIsConsistentWithModelValue(element, ko.utils.peekObservable(allBindings['value']), /* preferModelValue */ true); }
// Workaround for IE9 bug
ko.utils.ensureSelectElementIsRenderedCorrectly(element); } }};ko.bindingHandlers['options'].optionValueDomDataKey = '__ko.optionValueDomData__';ko.bindingHandlers['selectedOptions'] = { 'init': function (element, valueAccessor, allBindingsAccessor) { ko.utils.registerEventHandler(element, "change", function () { var value = valueAccessor(), valueToWrite = []; ko.utils.arrayForEach(element.getElementsByTagName("option"), function(node) { if (node.selected) valueToWrite.push(ko.selectExtensions.readValue(node)); }); ko.expressionRewriting.writeValueToProperty(value, allBindingsAccessor, 'value', valueToWrite); }); }, 'update': function (element, valueAccessor) { if (ko.utils.tagNameLower(element) != "select") throw new Error("values binding applies only to SELECT elements");
var newValue = ko.utils.unwrapObservable(valueAccessor()); if (newValue && typeof newValue.length == "number") { ko.utils.arrayForEach(element.getElementsByTagName("option"), function(node) { var isSelected = ko.utils.arrayIndexOf(newValue, ko.selectExtensions.readValue(node)) >= 0; ko.utils.setOptionNodeSelectionState(node, isSelected); }); } }};ko.bindingHandlers['style'] = { 'update': function (element, valueAccessor) { var value = ko.utils.unwrapObservable(valueAccessor() || {}); for (var styleName in value) { if (typeof styleName == "string") { var styleValue = ko.utils.unwrapObservable(value[styleName]); element.style[styleName] = styleValue || ""; // Empty string removes the value, whereas null/undefined have no effect
} } }};ko.bindingHandlers['submit'] = { 'init': function (element, valueAccessor, allBindingsAccessor, viewModel) { if (typeof valueAccessor() != "function") throw new Error("The value for a submit binding must be a function"); ko.utils.registerEventHandler(element, "submit", function (event) { var handlerReturnValue; var value = valueAccessor(); try { handlerReturnValue = value.call(viewModel, element); } finally { if (handlerReturnValue !== true) { // Normally we want to prevent default action. Developer can override this be explicitly returning true.
if (event.preventDefault) event.preventDefault(); else event.returnValue = false; } } }); }};ko.bindingHandlers['text'] = { 'update': function (element, valueAccessor) { ko.utils.setTextContent(element, valueAccessor()); }};ko.virtualElements.allowedBindings['text'] = true;ko.bindingHandlers['uniqueName'] = { 'init': function (element, valueAccessor) { if (valueAccessor()) { var name = "ko_unique_" + (++ko.bindingHandlers['uniqueName'].currentIndex); ko.utils.setElementName(element, name); } }};ko.bindingHandlers['uniqueName'].currentIndex = 0;ko.bindingHandlers['value'] = { 'init': function (element, valueAccessor, allBindingsAccessor) { // Always catch "change" event; possibly other events too if asked
var eventsToCatch = ["change"]; var requestedEventsToCatch = allBindingsAccessor()["valueUpdate"]; var propertyChangedFired = false; if (requestedEventsToCatch) { if (typeof requestedEventsToCatch == "string") // Allow both individual event names, and arrays of event names
requestedEventsToCatch = [requestedEventsToCatch]; ko.utils.arrayPushAll(eventsToCatch, requestedEventsToCatch); eventsToCatch = ko.utils.arrayGetDistinctValues(eventsToCatch); }
var valueUpdateHandler = function() { propertyChangedFired = false; var modelValue = valueAccessor(); var elementValue = ko.selectExtensions.readValue(element); ko.expressionRewriting.writeValueToProperty(modelValue, allBindingsAccessor, 'value', elementValue); }
// Workaround for https://github.com/SteveSanderson/knockout/issues/122
// IE doesn't fire "change" events on textboxes if the user selects a value from its autocomplete list
var ieAutoCompleteHackNeeded = ko.utils.ieVersion && element.tagName.toLowerCase() == "input" && element.type == "text" && element.autocomplete != "off" && (!element.form || element.form.autocomplete != "off"); if (ieAutoCompleteHackNeeded && ko.utils.arrayIndexOf(eventsToCatch, "propertychange") == -1) { ko.utils.registerEventHandler(element, "propertychange", function () { propertyChangedFired = true }); ko.utils.registerEventHandler(element, "blur", function() { if (propertyChangedFired) { valueUpdateHandler(); } }); }
ko.utils.arrayForEach(eventsToCatch, function(eventName) { // The syntax "after<eventname>" means "run the handler asynchronously after the event"
// This is useful, for example, to catch "keydown" events after the browser has updated the control
// (otherwise, ko.selectExtensions.readValue(this) will receive the control's value *before* the key event)
var handler = valueUpdateHandler; if (ko.utils.stringStartsWith(eventName, "after")) { handler = function() { setTimeout(valueUpdateHandler, 0) }; eventName = eventName.substring("after".length); } ko.utils.registerEventHandler(element, eventName, handler); }); }, 'update': function (element, valueAccessor) { var valueIsSelectOption = ko.utils.tagNameLower(element) === "select"; var newValue = ko.utils.unwrapObservable(valueAccessor()); var elementValue = ko.selectExtensions.readValue(element); var valueHasChanged = (newValue != elementValue);
// JavaScript's 0 == "" behavious is unfortunate here as it prevents writing 0 to an empty text box (loose equality suggests the values are the same).
// We don't want to do a strict equality comparison as that is more confusing for developers in certain cases, so we specifically special case 0 != "" here.
if ((newValue === 0) && (elementValue !== 0) && (elementValue !== "0")) valueHasChanged = true;
if (valueHasChanged) { var applyValueAction = function () { ko.selectExtensions.writeValue(element, newValue); }; applyValueAction();
// Workaround for IE6 bug: It won't reliably apply values to SELECT nodes during the same execution thread
// right after you've changed the set of OPTION nodes on it. So for that node type, we'll schedule a second thread
// to apply the value as well.
var alsoApplyAsynchronously = valueIsSelectOption; if (alsoApplyAsynchronously) setTimeout(applyValueAction, 0); }
// If you try to set a model value that can't be represented in an already-populated dropdown, reject that change,
// because you're not allowed to have a model value that disagrees with a visible UI selection.
if (valueIsSelectOption && (element.length > 0)) ensureDropdownSelectionIsConsistentWithModelValue(element, newValue, /* preferModelValue */ false); }};ko.bindingHandlers['visible'] = { 'update': function (element, valueAccessor) { var value = ko.utils.unwrapObservable(valueAccessor()); var isCurrentlyVisible = !(element.style.display == "none"); if (value && !isCurrentlyVisible) element.style.display = ""; else if ((!value) && isCurrentlyVisible) element.style.display = "none"; }};// 'click' is just a shorthand for the usual full-length event:{click:handler}
makeEventHandlerShortcut('click');// If you want to make a custom template engine,
//
// [1] Inherit from this class (like ko.nativeTemplateEngine does)
// [2] Override 'renderTemplateSource', supplying a function with this signature:
//
// function (templateSource, bindingContext, options) {
// // - templateSource.text() is the text of the template you should render
// // - bindingContext.$data is the data you should pass into the template
// // - you might also want to make bindingContext.$parent, bindingContext.$parents,
// // and bindingContext.$root available in the template too
// // - options gives you access to any other properties set on "data-bind: { template: options }"
// //
// // Return value: an array of DOM nodes
// }
//
// [3] Override 'createJavaScriptEvaluatorBlock', supplying a function with this signature:
//
// function (script) {
// // Return value: Whatever syntax means "Evaluate the JavaScript statement 'script' and output the result"
// // For example, the jquery.tmpl template engine converts 'someScript' to '${ someScript }'
// }
//
// This is only necessary if you want to allow data-bind attributes to reference arbitrary template variables.
// If you don't want to allow that, you can set the property 'allowTemplateRewriting' to false (like ko.nativeTemplateEngine does)
// and then you don't need to override 'createJavaScriptEvaluatorBlock'.
ko.templateEngine = function () { };
ko.templateEngine.prototype['renderTemplateSource'] = function (templateSource, bindingContext, options) { throw new Error("Override renderTemplateSource");};
ko.templateEngine.prototype['createJavaScriptEvaluatorBlock'] = function (script) { throw new Error("Override createJavaScriptEvaluatorBlock");};
ko.templateEngine.prototype['makeTemplateSource'] = function(template, templateDocument) { // Named template
if (typeof template == "string") { templateDocument = templateDocument || document; var elem = templateDocument.getElementById(template); if (!elem) throw new Error("Cannot find template with ID " + template); return new ko.templateSources.domElement(elem); } else if ((template.nodeType == 1) || (template.nodeType == 8)) { // Anonymous template
return new ko.templateSources.anonymousTemplate(template); } else throw new Error("Unknown template type: " + template);};
ko.templateEngine.prototype['renderTemplate'] = function (template, bindingContext, options, templateDocument) { var templateSource = this['makeTemplateSource'](template, templateDocument); return this['renderTemplateSource'](templateSource, bindingContext, options);};
ko.templateEngine.prototype['isTemplateRewritten'] = function (template, templateDocument) { // Skip rewriting if requested
if (this['allowTemplateRewriting'] === false) return true; return this['makeTemplateSource'](template, templateDocument)['data']("isRewritten");};
ko.templateEngine.prototype['rewriteTemplate'] = function (template, rewriterCallback, templateDocument) { var templateSource = this['makeTemplateSource'](template, templateDocument); var rewritten = rewriterCallback(templateSource['text']()); templateSource['text'](rewritten); templateSource['data']("isRewritten", true);};
ko.exportSymbol('templateEngine', ko.templateEngine);
ko.templateRewriting = (function () { var memoizeDataBindingAttributeSyntaxRegex = /(<[a-z]+\d*(\s+(?!data-bind=)[a-z0-9\-]+(=(\"[^\"]*\"|\'[^\']*\'))?)*\s+)data-bind=(["'])([\s\S]*?)\5/gi; var memoizeVirtualContainerBindingSyntaxRegex = /<!--\s*ko\b\s*([\s\S]*?)\s*-->/g;
function validateDataBindValuesForRewriting(keyValueArray) { var allValidators = ko.expressionRewriting.bindingRewriteValidators; for (var i = 0; i < keyValueArray.length; i++) { var key = keyValueArray[i]['key']; if (allValidators.hasOwnProperty(key)) { var validator = allValidators[key];
if (typeof validator === "function") { var possibleErrorMessage = validator(keyValueArray[i]['value']); if (possibleErrorMessage) throw new Error(possibleErrorMessage); } else if (!validator) { throw new Error("This template engine does not support the '" + key + "' binding within its templates"); } } } }
function constructMemoizedTagReplacement(dataBindAttributeValue, tagToRetain, templateEngine) { var dataBindKeyValueArray = ko.expressionRewriting.parseObjectLiteral(dataBindAttributeValue); validateDataBindValuesForRewriting(dataBindKeyValueArray); var rewrittenDataBindAttributeValue = ko.expressionRewriting.preProcessBindings(dataBindKeyValueArray);
// For no obvious reason, Opera fails to evaluate rewrittenDataBindAttributeValue unless it's wrapped in an additional
// anonymous function, even though Opera's built-in debugger can evaluate it anyway. No other browser requires this
// extra indirection.
var applyBindingsToNextSiblingScript = "ko.__tr_ambtns(function($context,$element){return(function(){return{ " + rewrittenDataBindAttributeValue + " } })()})"; return templateEngine['createJavaScriptEvaluatorBlock'](applyBindingsToNextSiblingScript) + tagToRetain; }
return { ensureTemplateIsRewritten: function (template, templateEngine, templateDocument) { if (!templateEngine['isTemplateRewritten'](template, templateDocument)) templateEngine['rewriteTemplate'](template, function (htmlString) { return ko.templateRewriting.memoizeBindingAttributeSyntax(htmlString, templateEngine); }, templateDocument); },
memoizeBindingAttributeSyntax: function (htmlString, templateEngine) { return htmlString.replace(memoizeDataBindingAttributeSyntaxRegex, function () { return constructMemoizedTagReplacement(/* dataBindAttributeValue: */ arguments[6], /* tagToRetain: */ arguments[1], templateEngine); }).replace(memoizeVirtualContainerBindingSyntaxRegex, function() { return constructMemoizedTagReplacement(/* dataBindAttributeValue: */ arguments[1], /* tagToRetain: */ "<!-- ko -->", templateEngine); }); },
applyMemoizedBindingsToNextSibling: function (bindings) { return ko.memoization.memoize(function (domNode, bindingContext) { if (domNode.nextSibling) ko.applyBindingsToNode(domNode.nextSibling, bindings, bindingContext); }); } }})();
// Exported only because it has to be referenced by string lookup from within rewritten template
ko.exportSymbol('__tr_ambtns', ko.templateRewriting.applyMemoizedBindingsToNextSibling);(function() { // A template source represents a read/write way of accessing a template. This is to eliminate the need for template loading/saving
// logic to be duplicated in every template engine (and means they can all work with anonymous templates, etc.)
//
// Two are provided by default:
// 1. ko.templateSources.domElement - reads/writes the text content of an arbitrary DOM element
// 2. ko.templateSources.anonymousElement - uses ko.utils.domData to read/write text *associated* with the DOM element, but
// without reading/writing the actual element text content, since it will be overwritten
// with the rendered template output.
// You can implement your own template source if you want to fetch/store templates somewhere other than in DOM elements.
// Template sources need to have the following functions:
// text() - returns the template text from your storage location
// text(value) - writes the supplied template text to your storage location
// data(key) - reads values stored using data(key, value) - see below
// data(key, value) - associates "value" with this template and the key "key". Is used to store information like "isRewritten".
//
// Optionally, template sources can also have the following functions:
// nodes() - returns a DOM element containing the nodes of this template, where available
// nodes(value) - writes the given DOM element to your storage location
// If a DOM element is available for a given template source, template engines are encouraged to use it in preference over text()
// for improved speed. However, all templateSources must supply text() even if they don't supply nodes().
//
// Once you've implemented a templateSource, make your template engine use it by subclassing whatever template engine you were
// using and overriding "makeTemplateSource" to return an instance of your custom template source.
ko.templateSources = {};
// ---- ko.templateSources.domElement -----
ko.templateSources.domElement = function(element) { this.domElement = element; }
ko.templateSources.domElement.prototype['text'] = function(/* valueToWrite */) { var tagNameLower = ko.utils.tagNameLower(this.domElement), elemContentsProperty = tagNameLower === "script" ? "text" : tagNameLower === "textarea" ? "value" : "innerHTML";
if (arguments.length == 0) { return this.domElement[elemContentsProperty]; } else { var valueToWrite = arguments[0]; if (elemContentsProperty === "innerHTML") ko.utils.setHtml(this.domElement, valueToWrite); else this.domElement[elemContentsProperty] = valueToWrite; } };
ko.templateSources.domElement.prototype['data'] = function(key /*, valueToWrite */) { if (arguments.length === 1) { return ko.utils.domData.get(this.domElement, "templateSourceData_" + key); } else { ko.utils.domData.set(this.domElement, "templateSourceData_" + key, arguments[1]); } };
// ---- ko.templateSources.anonymousTemplate -----
// Anonymous templates are normally saved/retrieved as DOM nodes through "nodes".
// For compatibility, you can also read "text"; it will be serialized from the nodes on demand.
// Writing to "text" is still supported, but then the template data will not be available as DOM nodes.
var anonymousTemplatesDomDataKey = "__ko_anon_template__"; ko.templateSources.anonymousTemplate = function(element) { this.domElement = element; } ko.templateSources.anonymousTemplate.prototype = new ko.templateSources.domElement(); ko.templateSources.anonymousTemplate.prototype['text'] = function(/* valueToWrite */) { if (arguments.length == 0) { var templateData = ko.utils.domData.get(this.domElement, anonymousTemplatesDomDataKey) || {}; if (templateData.textData === undefined && templateData.containerData) templateData.textData = templateData.containerData.innerHTML; return templateData.textData; } else { var valueToWrite = arguments[0]; ko.utils.domData.set(this.domElement, anonymousTemplatesDomDataKey, {textData: valueToWrite}); } }; ko.templateSources.domElement.prototype['nodes'] = function(/* valueToWrite */) { if (arguments.length == 0) { var templateData = ko.utils.domData.get(this.domElement, anonymousTemplatesDomDataKey) || {}; return templateData.containerData; } else { var valueToWrite = arguments[0]; ko.utils.domData.set(this.domElement, anonymousTemplatesDomDataKey, {containerData: valueToWrite}); } };
ko.exportSymbol('templateSources', ko.templateSources); ko.exportSymbol('templateSources.domElement', ko.templateSources.domElement); ko.exportSymbol('templateSources.anonymousTemplate', ko.templateSources.anonymousTemplate);})();(function () { var _templateEngine; ko.setTemplateEngine = function (templateEngine) { if ((templateEngine != undefined) && !(templateEngine instanceof ko.templateEngine)) throw new Error("templateEngine must inherit from ko.templateEngine"); _templateEngine = templateEngine; }
function invokeForEachNodeOrCommentInContinuousRange(firstNode, lastNode, action) { var node, nextInQueue = firstNode, firstOutOfRangeNode = ko.virtualElements.nextSibling(lastNode); while (nextInQueue && ((node = nextInQueue) !== firstOutOfRangeNode)) { nextInQueue = ko.virtualElements.nextSibling(node); if (node.nodeType === 1 || node.nodeType === 8) action(node); } }
function activateBindingsOnContinuousNodeArray(continuousNodeArray, bindingContext) { // To be used on any nodes that have been rendered by a template and have been inserted into some parent element
// Walks through continuousNodeArray (which *must* be continuous, i.e., an uninterrupted sequence of sibling nodes, because
// the algorithm for walking them relies on this), and for each top-level item in the virtual-element sense,
// (1) Does a regular "applyBindings" to associate bindingContext with this node and to activate any non-memoized bindings
// (2) Unmemoizes any memos in the DOM subtree (e.g., to activate bindings that had been memoized during template rewriting)
if (continuousNodeArray.length) { var firstNode = continuousNodeArray[0], lastNode = continuousNodeArray[continuousNodeArray.length - 1];
// Need to applyBindings *before* unmemoziation, because unmemoization might introduce extra nodes (that we don't want to re-bind)
// whereas a regular applyBindings won't introduce new memoized nodes
invokeForEachNodeOrCommentInContinuousRange(firstNode, lastNode, function(node) { ko.applyBindings(bindingContext, node); }); invokeForEachNodeOrCommentInContinuousRange(firstNode, lastNode, function(node) { ko.memoization.unmemoizeDomNodeAndDescendants(node, [bindingContext]); }); } }
function getFirstNodeFromPossibleArray(nodeOrNodeArray) { return nodeOrNodeArray.nodeType ? nodeOrNodeArray : nodeOrNodeArray.length > 0 ? nodeOrNodeArray[0] : null; }
function executeTemplate(targetNodeOrNodeArray, renderMode, template, bindingContext, options) { options = options || {}; var firstTargetNode = targetNodeOrNodeArray && getFirstNodeFromPossibleArray(targetNodeOrNodeArray); var templateDocument = firstTargetNode && firstTargetNode.ownerDocument; var templateEngineToUse = (options['templateEngine'] || _templateEngine); ko.templateRewriting.ensureTemplateIsRewritten(template, templateEngineToUse, templateDocument); var renderedNodesArray = templateEngineToUse['renderTemplate'](template, bindingContext, options, templateDocument);
// Loosely check result is an array of DOM nodes
if ((typeof renderedNodesArray.length != "number") || (renderedNodesArray.length > 0 && typeof renderedNodesArray[0].nodeType != "number")) throw new Error("Template engine must return an array of DOM nodes");
var haveAddedNodesToParent = false; switch (renderMode) { case "replaceChildren": ko.virtualElements.setDomNodeChildren(targetNodeOrNodeArray, renderedNodesArray); haveAddedNodesToParent = true; break; case "replaceNode": ko.utils.replaceDomNodes(targetNodeOrNodeArray, renderedNodesArray); haveAddedNodesToParent = true; break; case "ignoreTargetNode": break; default: throw new Error("Unknown renderMode: " + renderMode); }
if (haveAddedNodesToParent) { activateBindingsOnContinuousNodeArray(renderedNodesArray, bindingContext); if (options['afterRender']) ko.dependencyDetection.ignore(options['afterRender'], null, [renderedNodesArray, bindingContext['$data']]); }
return renderedNodesArray; }
ko.renderTemplate = function (template, dataOrBindingContext, options, targetNodeOrNodeArray, renderMode) { options = options || {}; if ((options['templateEngine'] || _templateEngine) == undefined) throw new Error("Set a template engine before calling renderTemplate"); renderMode = renderMode || "replaceChildren";
if (targetNodeOrNodeArray) { var firstTargetNode = getFirstNodeFromPossibleArray(targetNodeOrNodeArray);
var whenToDispose = function () { return (!firstTargetNode) || !ko.utils.domNodeIsAttachedToDocument(firstTargetNode); }; // Passive disposal (on next evaluation)
var activelyDisposeWhenNodeIsRemoved = (firstTargetNode && renderMode == "replaceNode") ? firstTargetNode.parentNode : firstTargetNode;
return ko.dependentObservable( // So the DOM is automatically updated when any dependency changes
function () { // Ensure we've got a proper binding context to work with
var bindingContext = (dataOrBindingContext && (dataOrBindingContext instanceof ko.bindingContext)) ? dataOrBindingContext : new ko.bindingContext(ko.utils.unwrapObservable(dataOrBindingContext));
// Support selecting template as a function of the data being rendered
var templateName = typeof(template) == 'function' ? template(bindingContext['$data'], bindingContext) : template;
var renderedNodesArray = executeTemplate(targetNodeOrNodeArray, renderMode, templateName, bindingContext, options); if (renderMode == "replaceNode") { targetNodeOrNodeArray = renderedNodesArray; firstTargetNode = getFirstNodeFromPossibleArray(targetNodeOrNodeArray); } }, null, { disposeWhen: whenToDispose, disposeWhenNodeIsRemoved: activelyDisposeWhenNodeIsRemoved } ); } else { // We don't yet have a DOM node to evaluate, so use a memo and render the template later when there is a DOM node
return ko.memoization.memoize(function (domNode) { ko.renderTemplate(template, dataOrBindingContext, options, domNode, "replaceNode"); }); } };
ko.renderTemplateForEach = function (template, arrayOrObservableArray, options, targetNode, parentBindingContext) { // Since setDomNodeChildrenFromArrayMapping always calls executeTemplateForArrayItem and then
// activateBindingsCallback for added items, we can store the binding context in the former to use in the latter.
var arrayItemContext;
// This will be called by setDomNodeChildrenFromArrayMapping to get the nodes to add to targetNode
var executeTemplateForArrayItem = function (arrayValue, index) { // Support selecting template as a function of the data being rendered
arrayItemContext = parentBindingContext['createChildContext'](ko.utils.unwrapObservable(arrayValue), options['as']); arrayItemContext['$index'] = index; var templateName = typeof(template) == 'function' ? template(arrayValue, arrayItemContext) : template; return executeTemplate(null, "ignoreTargetNode", templateName, arrayItemContext, options); }
// This will be called whenever setDomNodeChildrenFromArrayMapping has added nodes to targetNode
var activateBindingsCallback = function(arrayValue, addedNodesArray, index) { activateBindingsOnContinuousNodeArray(addedNodesArray, arrayItemContext); if (options['afterRender']) options['afterRender'](addedNodesArray, arrayValue); };
return ko.dependentObservable(function () { var unwrappedArray = ko.utils.unwrapObservable(arrayOrObservableArray) || []; if (typeof unwrappedArray.length == "undefined") // Coerce single value into array
unwrappedArray = [unwrappedArray];
// Filter out any entries marked as destroyed
var filteredArray = ko.utils.arrayFilter(unwrappedArray, function(item) { return options['includeDestroyed'] || item === undefined || item === null || !ko.utils.unwrapObservable(item['_destroy']); });
// Call setDomNodeChildrenFromArrayMapping, ignoring any observables unwrapped within (most likely from a callback function).
// If the array items are observables, though, they will be unwrapped in executeTemplateForArrayItem and managed within setDomNodeChildrenFromArrayMapping.
ko.dependencyDetection.ignore(ko.utils.setDomNodeChildrenFromArrayMapping, null, [targetNode, filteredArray, executeTemplateForArrayItem, options, activateBindingsCallback]);
}, null, { disposeWhenNodeIsRemoved: targetNode }); };
var templateComputedDomDataKey = '__ko__templateComputedDomDataKey__'; function disposeOldComputedAndStoreNewOne(element, newComputed) { var oldComputed = ko.utils.domData.get(element, templateComputedDomDataKey); if (oldComputed && (typeof(oldComputed.dispose) == 'function')) oldComputed.dispose(); ko.utils.domData.set(element, templateComputedDomDataKey, (newComputed && newComputed.isActive()) ? newComputed : undefined); }
ko.bindingHandlers['template'] = { 'init': function(element, valueAccessor) { // Support anonymous templates
var bindingValue = ko.utils.unwrapObservable(valueAccessor()); if ((typeof bindingValue != "string") && (!bindingValue['name']) && (element.nodeType == 1 || element.nodeType == 8)) { // It's an anonymous template - store the element contents, then clear the element
var templateNodes = element.nodeType == 1 ? element.childNodes : ko.virtualElements.childNodes(element), container = ko.utils.moveCleanedNodesToContainerElement(templateNodes); // This also removes the nodes from their current parent
new ko.templateSources.anonymousTemplate(element)['nodes'](container); } return { 'controlsDescendantBindings': true }; }, 'update': function (element, valueAccessor, allBindingsAccessor, viewModel, bindingContext) { var templateName = ko.utils.unwrapObservable(valueAccessor()), options = {}, shouldDisplay = true, dataValue, templateComputed = null;
if (typeof templateName != "string") { options = templateName; templateName = options['name'];
// Support "if"/"ifnot" conditions
if ('if' in options) shouldDisplay = ko.utils.unwrapObservable(options['if']); if (shouldDisplay && 'ifnot' in options) shouldDisplay = !ko.utils.unwrapObservable(options['ifnot']);
dataValue = ko.utils.unwrapObservable(options['data']); }
if ('foreach' in options) { // Render once for each data point (treating data set as empty if shouldDisplay==false)
var dataArray = (shouldDisplay && options['foreach']) || []; templateComputed = ko.renderTemplateForEach(templateName || element, dataArray, options, element, bindingContext); } else if (!shouldDisplay) { ko.virtualElements.emptyNode(element); } else { // Render once for this single data point (or use the viewModel if no data was provided)
var innerBindingContext = ('data' in options) ? bindingContext['createChildContext'](dataValue, options['as']) : // Given an explitit 'data' value, we create a child binding context for it
bindingContext; // Given no explicit 'data' value, we retain the same binding context
templateComputed = ko.renderTemplate(templateName || element, innerBindingContext, options, element); }
// It only makes sense to have a single template computed per element (otherwise which one should have its output displayed?)
disposeOldComputedAndStoreNewOne(element, templateComputed); } };
// Anonymous templates can't be rewritten. Give a nice error message if you try to do it.
ko.expressionRewriting.bindingRewriteValidators['template'] = function(bindingValue) { var parsedBindingValue = ko.expressionRewriting.parseObjectLiteral(bindingValue);
if ((parsedBindingValue.length == 1) && parsedBindingValue[0]['unknown']) return null; // It looks like a string literal, not an object literal, so treat it as a named template (which is allowed for rewriting)
if (ko.expressionRewriting.keyValueArrayContainsKey(parsedBindingValue, "name")) return null; // Named templates can be rewritten, so return "no error"
return "This template engine does not support anonymous templates nested within its templates"; };
ko.virtualElements.allowedBindings['template'] = true;})();
ko.exportSymbol('setTemplateEngine', ko.setTemplateEngine);ko.exportSymbol('renderTemplate', ko.renderTemplate);
ko.utils.compareArrays = (function () { var statusNotInOld = 'added', statusNotInNew = 'deleted';
// Simple calculation based on Levenshtein distance.
function compareArrays(oldArray, newArray, dontLimitMoves) { oldArray = oldArray || []; newArray = newArray || [];
if (oldArray.length <= newArray.length) return compareSmallArrayToBigArray(oldArray, newArray, statusNotInOld, statusNotInNew, dontLimitMoves); else return compareSmallArrayToBigArray(newArray, oldArray, statusNotInNew, statusNotInOld, dontLimitMoves); }
function compareSmallArrayToBigArray(smlArray, bigArray, statusNotInSml, statusNotInBig, dontLimitMoves) { var myMin = Math.min, myMax = Math.max, editDistanceMatrix = [], smlIndex, smlIndexMax = smlArray.length, bigIndex, bigIndexMax = bigArray.length, compareRange = (bigIndexMax - smlIndexMax) || 1, maxDistance = smlIndexMax + bigIndexMax + 1, thisRow, lastRow, bigIndexMaxForRow, bigIndexMinForRow;
for (smlIndex = 0; smlIndex <= smlIndexMax; smlIndex++) { lastRow = thisRow; editDistanceMatrix.push(thisRow = []); bigIndexMaxForRow = myMin(bigIndexMax, smlIndex + compareRange); bigIndexMinForRow = myMax(0, smlIndex - 1); for (bigIndex = bigIndexMinForRow; bigIndex <= bigIndexMaxForRow; bigIndex++) { if (!bigIndex) thisRow[bigIndex] = smlIndex + 1; else if (!smlIndex) // Top row - transform empty array into new array via additions
thisRow[bigIndex] = bigIndex + 1; else if (smlArray[smlIndex - 1] === bigArray[bigIndex - 1]) thisRow[bigIndex] = lastRow[bigIndex - 1]; // copy value (no edit)
else { var northDistance = lastRow[bigIndex] || maxDistance; // not in big (deletion)
var westDistance = thisRow[bigIndex - 1] || maxDistance; // not in small (addition)
thisRow[bigIndex] = myMin(northDistance, westDistance) + 1; } } }
var editScript = [], meMinusOne, notInSml = [], notInBig = []; for (smlIndex = smlIndexMax, bigIndex = bigIndexMax; smlIndex || bigIndex;) { meMinusOne = editDistanceMatrix[smlIndex][bigIndex] - 1; if (bigIndex && meMinusOne === editDistanceMatrix[smlIndex][bigIndex-1]) { notInSml.push(editScript[editScript.length] = { // added
'status': statusNotInSml, 'value': bigArray[--bigIndex], 'index': bigIndex }); } else if (smlIndex && meMinusOne === editDistanceMatrix[smlIndex - 1][bigIndex]) { notInBig.push(editScript[editScript.length] = { // deleted
'status': statusNotInBig, 'value': smlArray[--smlIndex], 'index': smlIndex }); } else { editScript.push({ 'status': "retained", 'value': bigArray[--bigIndex] }); --smlIndex; } }
if (notInSml.length && notInBig.length) { // Set a limit on the number of consecutive non-matching comparisons; having it a multiple of
// smlIndexMax keeps the time complexity of this algorithm linear.
var limitFailedCompares = smlIndexMax * 10, failedCompares, a, d, notInSmlItem, notInBigItem; // Go through the items that have been added and deleted and try to find matches between them.
for (failedCompares = a = 0; (dontLimitMoves || failedCompares < limitFailedCompares) && (notInSmlItem = notInSml[a]); a++) { for (d = 0; notInBigItem = notInBig[d]; d++) { if (notInSmlItem['value'] === notInBigItem['value']) { notInSmlItem['moved'] = notInBigItem['index']; notInBigItem['moved'] = notInSmlItem['index']; notInBig.splice(d,1); // This item is marked as moved; so remove it from notInBig list
failedCompares = d = 0; // Reset failed compares count because we're checking for consecutive failures
break; } } failedCompares += d; } } return editScript.reverse(); }
return compareArrays;})();
ko.exportSymbol('utils.compareArrays', ko.utils.compareArrays);
(function () { // Objective:
// * Given an input array, a container DOM node, and a function from array elements to arrays of DOM nodes,
// map the array elements to arrays of DOM nodes, concatenate together all these arrays, and use them to populate the container DOM node
// * Next time we're given the same combination of things (with the array possibly having mutated), update the container DOM node
// so that its children is again the concatenation of the mappings of the array elements, but don't re-map any array elements that we
// previously mapped - retain those nodes, and just insert/delete other ones
// "callbackAfterAddingNodes" will be invoked after any "mapping"-generated nodes are inserted into the container node
// You can use this, for example, to activate bindings on those nodes.
function fixUpNodesToBeMovedOrRemoved(contiguousNodeArray) { // Before moving, deleting, or replacing a set of nodes that were previously outputted by the "map" function, we have to reconcile
// them against what is in the DOM right now. It may be that some of the nodes have already been removed from the document,
// or that new nodes might have been inserted in the middle, for example by a binding. Also, there may previously have been
// leading comment nodes (created by rewritten string-based templates) that have since been removed during binding.
// So, this function translates the old "map" output array into its best guess of what set of current DOM nodes should be removed.
//
// Rules:
// [A] Any leading nodes that aren't in the document any more should be ignored
// These most likely correspond to memoization nodes that were already removed during binding
// See https://github.com/SteveSanderson/knockout/pull/440
// [B] We want to output a contiguous series of nodes that are still in the document. So, ignore any nodes that
// have already been removed, and include any nodes that have been inserted among the previous collection
// Rule [A]
while (contiguousNodeArray.length && !ko.utils.domNodeIsAttachedToDocument(contiguousNodeArray[0])) contiguousNodeArray.splice(0, 1);
// Rule [B]
if (contiguousNodeArray.length > 1) { // Build up the actual new contiguous node set
var current = contiguousNodeArray[0], last = contiguousNodeArray[contiguousNodeArray.length - 1], newContiguousSet = [current]; while (current !== last) { current = current.nextSibling; if (!current) // Won't happen, except if the developer has manually removed some DOM elements (then we're in an undefined scenario)
return; newContiguousSet.push(current); }
// ... then mutate the input array to match this.
// (The following line replaces the contents of contiguousNodeArray with newContiguousSet)
Array.prototype.splice.apply(contiguousNodeArray, [0, contiguousNodeArray.length].concat(newContiguousSet)); } return contiguousNodeArray; }
function mapNodeAndRefreshWhenChanged(containerNode, mapping, valueToMap, callbackAfterAddingNodes, index) { // Map this array value inside a dependentObservable so we re-map when any dependency changes
var mappedNodes = []; var dependentObservable = ko.dependentObservable(function() { var newMappedNodes = mapping(valueToMap, index) || [];
// On subsequent evaluations, just replace the previously-inserted DOM nodes
if (mappedNodes.length > 0) { ko.utils.replaceDomNodes(fixUpNodesToBeMovedOrRemoved(mappedNodes), newMappedNodes); if (callbackAfterAddingNodes) ko.dependencyDetection.ignore(callbackAfterAddingNodes, null, [valueToMap, newMappedNodes, index]); }
// Replace the contents of the mappedNodes array, thereby updating the record
// of which nodes would be deleted if valueToMap was itself later removed
mappedNodes.splice(0, mappedNodes.length); ko.utils.arrayPushAll(mappedNodes, newMappedNodes); }, null, { disposeWhenNodeIsRemoved: containerNode, disposeWhen: function() { return (mappedNodes.length == 0) || !ko.utils.domNodeIsAttachedToDocument(mappedNodes[0]) } }); return { mappedNodes : mappedNodes, dependentObservable : (dependentObservable.isActive() ? dependentObservable : undefined) }; }
var lastMappingResultDomDataKey = "setDomNodeChildrenFromArrayMapping_lastMappingResult";
ko.utils.setDomNodeChildrenFromArrayMapping = function (domNode, array, mapping, options, callbackAfterAddingNodes) { // Compare the provided array against the previous one
array = array || []; options = options || {}; var isFirstExecution = ko.utils.domData.get(domNode, lastMappingResultDomDataKey) === undefined; var lastMappingResult = ko.utils.domData.get(domNode, lastMappingResultDomDataKey) || []; var lastArray = ko.utils.arrayMap(lastMappingResult, function (x) { return x.arrayEntry; }); var editScript = ko.utils.compareArrays(lastArray, array);
// Build the new mapping result
var newMappingResult = []; var lastMappingResultIndex = 0; var newMappingResultIndex = 0;
var nodesToDelete = []; var itemsToProcess = []; var itemsForBeforeRemoveCallbacks = []; var itemsForMoveCallbacks = []; var itemsForAfterAddCallbacks = []; var mapData;
function itemMovedOrRetained(editScriptIndex, oldPosition) { mapData = lastMappingResult[oldPosition]; if (newMappingResultIndex !== oldPosition) itemsForMoveCallbacks[editScriptIndex] = mapData; // Since updating the index might change the nodes, do so before calling fixUpNodesToBeMovedOrRemoved
mapData.indexObservable(newMappingResultIndex++); fixUpNodesToBeMovedOrRemoved(mapData.mappedNodes); newMappingResult.push(mapData); itemsToProcess.push(mapData); }
function callCallback(callback, items) { if (callback) { for (var i = 0, n = items.length; i < n; i++) { if (items[i]) { ko.utils.arrayForEach(items[i].mappedNodes, function(node) { callback(node, i, items[i].arrayEntry); }); } } } }
for (var i = 0, editScriptItem, movedIndex; editScriptItem = editScript[i]; i++) { movedIndex = editScriptItem['moved']; switch (editScriptItem['status']) { case "deleted": if (movedIndex === undefined) { mapData = lastMappingResult[lastMappingResultIndex];
// Stop tracking changes to the mapping for these nodes
if (mapData.dependentObservable) mapData.dependentObservable.dispose();
// Queue these nodes for later removal
nodesToDelete.push.apply(nodesToDelete, fixUpNodesToBeMovedOrRemoved(mapData.mappedNodes)); if (options['beforeRemove']) { itemsForBeforeRemoveCallbacks[i] = mapData; itemsToProcess.push(mapData); } } lastMappingResultIndex++; break;
case "retained": itemMovedOrRetained(i, lastMappingResultIndex++); break;
case "added": if (movedIndex !== undefined) { itemMovedOrRetained(i, movedIndex); } else { mapData = { arrayEntry: editScriptItem['value'], indexObservable: ko.observable(newMappingResultIndex++) }; newMappingResult.push(mapData); itemsToProcess.push(mapData); if (!isFirstExecution) itemsForAfterAddCallbacks[i] = mapData; } break; } }
// Call beforeMove first before any changes have been made to the DOM
callCallback(options['beforeMove'], itemsForMoveCallbacks);
// Next remove nodes for deleted items (or just clean if there's a beforeRemove callback)
ko.utils.arrayForEach(nodesToDelete, options['beforeRemove'] ? ko.cleanNode : ko.removeNode);
// Next add/reorder the remaining items (will include deleted items if there's a beforeRemove callback)
for (var i = 0, nextNode = ko.virtualElements.firstChild(domNode), lastNode, node; mapData = itemsToProcess[i]; i++) { // Get nodes for newly added items
if (!mapData.mappedNodes) ko.utils.extend(mapData, mapNodeAndRefreshWhenChanged(domNode, mapping, mapData.arrayEntry, callbackAfterAddingNodes, mapData.indexObservable));
// Put nodes in the right place if they aren't there already
for (var j = 0; node = mapData.mappedNodes[j]; nextNode = node.nextSibling, lastNode = node, j++) { if (node !== nextNode) ko.virtualElements.insertAfter(domNode, node, lastNode); }
// Run the callbacks for newly added nodes (for example, to apply bindings, etc.)
if (!mapData.initialized && callbackAfterAddingNodes) { callbackAfterAddingNodes(mapData.arrayEntry, mapData.mappedNodes, mapData.indexObservable); mapData.initialized = true; } }
// If there's a beforeRemove callback, call it after reordering.
// Note that we assume that the beforeRemove callback will usually be used to remove the nodes using
// some sort of animation, which is why we first reorder the nodes that will be removed. If the
// callback instead removes the nodes right away, it would be more efficient to skip reordering them.
// Perhaps we'll make that change in the future if this scenario becomes more common.
callCallback(options['beforeRemove'], itemsForBeforeRemoveCallbacks);
// Finally call afterMove and afterAdd callbacks
callCallback(options['afterMove'], itemsForMoveCallbacks); callCallback(options['afterAdd'], itemsForAfterAddCallbacks);
// Store a copy of the array items we just considered so we can difference it next time
ko.utils.domData.set(domNode, lastMappingResultDomDataKey, newMappingResult); }})();
ko.exportSymbol('utils.setDomNodeChildrenFromArrayMapping', ko.utils.setDomNodeChildrenFromArrayMapping);ko.nativeTemplateEngine = function () { this['allowTemplateRewriting'] = false;}
ko.nativeTemplateEngine.prototype = new ko.templateEngine();ko.nativeTemplateEngine.prototype['renderTemplateSource'] = function (templateSource, bindingContext, options) { var useNodesIfAvailable = !(ko.utils.ieVersion < 9), // IE<9 cloneNode doesn't work properly
templateNodesFunc = useNodesIfAvailable ? templateSource['nodes'] : null, templateNodes = templateNodesFunc ? templateSource['nodes']() : null;
if (templateNodes) { return ko.utils.makeArray(templateNodes.cloneNode(true).childNodes); } else { var templateText = templateSource['text'](); return ko.utils.parseHtmlFragment(templateText); }};
ko.nativeTemplateEngine.instance = new ko.nativeTemplateEngine();ko.setTemplateEngine(ko.nativeTemplateEngine.instance);
ko.exportSymbol('nativeTemplateEngine', ko.nativeTemplateEngine);(function() { ko.jqueryTmplTemplateEngine = function () { // Detect which version of jquery-tmpl you're using. Unfortunately jquery-tmpl
// doesn't expose a version number, so we have to infer it.
// Note that as of Knockout 1.3, we only support jQuery.tmpl 1.0.0pre and later,
// which KO internally refers to as version "2", so older versions are no longer detected.
var jQueryTmplVersion = this.jQueryTmplVersion = (function() { if ((typeof(jQuery) == "undefined") || !(jQuery['tmpl'])) return 0; // Since it exposes no official version number, we use our own numbering system. To be updated as jquery-tmpl evolves.
try { if (jQuery['tmpl']['tag']['tmpl']['open'].toString().indexOf('__') >= 0) { // Since 1.0.0pre, custom tags should append markup to an array called "__"
return 2; // Final version of jquery.tmpl
} } catch(ex) { /* Apparently not the version we were looking for */ }
return 1; // Any older version that we don't support
})();
function ensureHasReferencedJQueryTemplates() { if (jQueryTmplVersion < 2) throw new Error("Your version of jQuery.tmpl is too old. Please upgrade to jQuery.tmpl 1.0.0pre or later."); }
function executeTemplate(compiledTemplate, data, jQueryTemplateOptions) { return jQuery['tmpl'](compiledTemplate, data, jQueryTemplateOptions); }
this['renderTemplateSource'] = function(templateSource, bindingContext, options) { options = options || {}; ensureHasReferencedJQueryTemplates();
// Ensure we have stored a precompiled version of this template (don't want to reparse on every render)
var precompiled = templateSource['data']('precompiled'); if (!precompiled) { var templateText = templateSource['text']() || ""; // Wrap in "with($whatever.koBindingContext) { ... }"
templateText = "{{ko_with $item.koBindingContext}}" + templateText + "{{/ko_with}}";
precompiled = jQuery['template'](null, templateText); templateSource['data']('precompiled', precompiled); }
var data = [bindingContext['$data']]; // Prewrap the data in an array to stop jquery.tmpl from trying to unwrap any arrays
var jQueryTemplateOptions = jQuery['extend']({ 'koBindingContext': bindingContext }, options['templateOptions']);
var resultNodes = executeTemplate(precompiled, data, jQueryTemplateOptions); resultNodes['appendTo'](document.createElement("div")); // Using "appendTo" forces jQuery/jQuery.tmpl to perform necessary cleanup work
jQuery['fragments'] = {}; // Clear jQuery's fragment cache to avoid a memory leak after a large number of template renders
return resultNodes; };
this['createJavaScriptEvaluatorBlock'] = function(script) { return "{{ko_code ((function() { return " + script + " })()) }}"; };
this['addTemplate'] = function(templateName, templateMarkup) { document.write("<script type='text/html' id='" + templateName + "'>" + templateMarkup + "</script>"); };
if (jQueryTmplVersion > 0) { jQuery['tmpl']['tag']['ko_code'] = { open: "__.push($1 || '');" }; jQuery['tmpl']['tag']['ko_with'] = { open: "with($1) {", close: "} " }; } };
ko.jqueryTmplTemplateEngine.prototype = new ko.templateEngine();
// Use this one by default *only if jquery.tmpl is referenced*
var jqueryTmplTemplateEngineInstance = new ko.jqueryTmplTemplateEngine(); if (jqueryTmplTemplateEngineInstance.jQueryTmplVersion > 0) ko.setTemplateEngine(jqueryTmplTemplateEngineInstance);
ko.exportSymbol('jqueryTmplTemplateEngine', ko.jqueryTmplTemplateEngine);})();});})(window,document,navigator,window["jQuery"]);})();
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