/* * jQuery Mobile v1.4.5 * http://jquerymobile.com * * Copyright 2010, 2014 jQuery Foundation, Inc. and other contributors * Released under the MIT license. * http://jquery.org/license * */ (function (root, doc, factory) { // Browser globals factory(root.jQuery, root, doc); }(this, document, function (jQuery, window, document, undefined) { jQuery.mobile = {}; (function ($, window, undefined) { function parentWithClass(elem, className) { while (!elem.classList || !elem.classList.contains(className)) { elem = elem.parentNode; if (!elem) { return null; } } return elem; } $.extend($.mobile, { // Place to store various widget extensions behaviors: {}, getClosestBaseUrl: function (ele) { var page = parentWithClass(ele, 'ui-page'); // Find the closest page and extract out its url. var url = (page ? page.getAttribute("data-url") : null), base = $.mobile.path.documentBase.hrefNoHash; if (!url || !$.mobile.path.isPath(url)) { url = base; } return $.mobile.path.makeUrlAbsolute(url, base); } }); // plugins $.fn.extend({ // Enhance child elements enhanceWithin: function () { var index, widgetElements = {}, that = this; // Enhance widgets $.each($.mobile.widgets, function (name, constructor) { // If initSelector not false find elements if (constructor.initSelector) { // Filter elements that should not be enhanced based on parents var elements = that[0].querySelectorAll(constructor.initSelector); // Enhance whatever is left if (elements.length > 0) { widgetElements[constructor.prototype.widgetName] = $(elements); } } }); for (index in widgetElements) { widgetElements[index][index](); } return this; } }); })(jQuery, this); var previousState = {}; // This is just a temporary api until jquery mobile is eventually deprecated and we have an actual routing library jQuery.onStatePushed = function(state) { previousState = state; }; function ignorePopState(event) { var state = event.state || {}; if (previousState.navigate === false) { // Ignore previousState = state; return true; } previousState = state; return false; } function fireNavigateFromPopstateEvent(event) { var state = event.state || {}; if (event.historyState) { $.extend(state, event.historyState); } window.dispatchEvent(new CustomEvent("navigate", { detail: { state: state, originalEvent: event } })); } jQuery.mobile.widgets = {}; // For backcompat remove in 1.5 jQuery(document).on("create", function (event) { jQuery(event.target).enhanceWithin(); }); (function ($, undefined) { var path, $base; $.mobile.path = path = { uiStateKey: "&ui-state", // This scary looking regular expression parses an absolute URL or its relative // variants (protocol, site, document, query, and hash), into the various // components (protocol, host, path, query, fragment, etc that make up the // URL as well as some other commonly used sub-parts. When used with RegExp.exec() // or String.match, it parses the URL into a results array that looks like this: // // [0]: http://jblas:password@mycompany.com:8080/mail/inbox?msg=1234&type=unread#msg-content // [1]: http://jblas:password@mycompany.com:8080/mail/inbox?msg=1234&type=unread // [2]: http://jblas:password@mycompany.com:8080/mail/inbox // [3]: http://jblas:password@mycompany.com:8080 // [4]: http: // [5]: // // [6]: jblas:password@mycompany.com:8080 // [7]: jblas:password // [8]: jblas // [9]: password // [10]: mycompany.com:8080 // [11]: mycompany.com // [12]: 8080 // [13]: /mail/inbox // [14]: /mail/ // [15]: inbox // [16]: ?msg=1234&type=unread // [17]: #msg-content // urlParseRE: /^\s*(((([^:\/#\?]+:)?(?:(\/\/)((?:(([^:@\/#\?]+)(?:\:([^:@\/#\?]+))?)@)?(([^:\/#\?\]\[]+|\[[^\/\]@#?]+\])(?:\:([0-9]+))?))?)?)?((\/?(?:[^\/\?#]+\/+)*)([^\?#]*)))?(\?[^#]+)?)(#.*)?/, // Abstraction to address xss (Issue #4787) by removing the authority in // browsers that auto-decode it. All references to location.href should be // replaced with a call to this method so that it can be dealt with properly here getLocation: function (url) { var parsedUrl = this.parseUrl(url || location.href), uri = url ? parsedUrl : location, // Make sure to parse the url or the location object for the hash because using // location.hash is autodecoded in firefox, the rest of the url should be from // the object (location unless we're testing) to avoid the inclusion of the // authority hash = parsedUrl.hash; // mimic the browser with an empty string when the hash is empty hash = hash === "#" ? "" : hash; return uri.protocol + parsedUrl.doubleSlash + uri.host + // The pathname must start with a slash if there's a protocol, because you // can't have a protocol followed by a relative path. Also, it's impossible to // calculate absolute URLs from relative ones if the absolute one doesn't have // a leading "/". ((uri.protocol !== "" && uri.pathname.substring(0, 1) !== "/") ? "/" : "") + uri.pathname + uri.search + hash; }, //return the original document url getDocumentUrl: function (asParsedObject) { return asParsedObject ? $.extend({}, path.documentUrl) : path.documentUrl.href; }, parseLocation: function () { return this.parseUrl(this.getLocation()); }, //Parse a URL into a structure that allows easy access to //all of the URL components by name. parseUrl: function (url) { // If we're passed an object, we'll assume that it is // a parsed url object and just return it back to the caller. if ($.type(url) === "object") { return url; } var matches = path.urlParseRE.exec(url || "") || []; // Create an object that allows the caller to access the sub-matches // by name. Note that IE returns an empty string instead of undefined, // like all other browsers do, so we normalize everything so its consistent // no matter what browser we're running on. return { href: matches[0] || "", hrefNoHash: matches[1] || "", hrefNoSearch: matches[2] || "", domain: matches[3] || "", protocol: matches[4] || "", doubleSlash: matches[5] || "", authority: matches[6] || "", username: matches[8] || "", password: matches[9] || "", host: matches[10] || "", hostname: matches[11] || "", port: matches[12] || "", pathname: matches[13] || "", directory: matches[14] || "", filename: matches[15] || "", search: matches[16] || "", hash: matches[17] || "" }; }, //Turn relPath into an asbolute path. absPath is //an optional absolute path which describes what //relPath is relative to. makePathAbsolute: function (relPath, absPath) { var absStack, relStack, i, d; if (relPath && relPath.charAt(0) === "/") { return relPath; } relPath = relPath || ""; absPath = absPath ? absPath.replace(/^\/|(\/[^\/]*|[^\/]+)$/g, "") : ""; absStack = absPath ? absPath.split("/") : []; relStack = relPath.split("/"); for (i = 0; i < relStack.length; i++) { d = relStack[i]; switch (d) { case ".": break; case "..": if (absStack.length) { absStack.pop(); } break; default: absStack.push(d); break; } } return "/" + absStack.join("/"); }, //Returns true if both urls have the same domain. isSameDomain: function (absUrl1, absUrl2) { return path.parseUrl(absUrl1).domain.toLowerCase() === path.parseUrl(absUrl2).domain.toLowerCase(); }, //Returns true for any relative variant. isRelativeUrl: function (url) { // All relative Url variants have one thing in common, no protocol. return path.parseUrl(url).protocol === ""; }, //Returns true for an absolute url. isAbsoluteUrl: function (url) { return path.parseUrl(url).protocol !== ""; }, //Turn the specified realtive URL into an absolute one. This function //can handle all relative variants (protocol, site, document, query, fragment). makeUrlAbsolute: function (relUrl, absUrl) { if (!path.isRelativeUrl(relUrl)) { return relUrl; } if (absUrl === undefined) { absUrl = this.documentBase; } var relObj = path.parseUrl(relUrl), absObj = path.parseUrl(absUrl), protocol = relObj.protocol || absObj.protocol, doubleSlash = relObj.protocol ? relObj.doubleSlash : (relObj.doubleSlash || absObj.doubleSlash), authority = relObj.authority || absObj.authority, hasPath = relObj.pathname !== "", pathname = path.makePathAbsolute(relObj.pathname || absObj.filename, absObj.pathname), search = relObj.search || (!hasPath && absObj.search) || "", hash = relObj.hash; return protocol + doubleSlash + authority + pathname + search + hash; }, convertUrlToDataUrl: function (absUrl) { var result = absUrl, u = path.parseUrl(absUrl); if (path.isEmbeddedPage(u)) { // For embedded pages, remove the dialog hash key as in getFilePath(), // and remove otherwise the Data Url won't match the id of the embedded Page. result = u.hash .replace(/^#/, "") .replace(/\?.*$/, ""); } else if (path.isSameDomain(u, this.documentBase)) { result = u.hrefNoHash.replace(this.documentBase.domain, ""); } return window.decodeURIComponent(result); }, //get path from current hash, or from a file path get: function (newPath) { if (newPath === undefined) { newPath = path.parseLocation().hash; } return path.stripHash(newPath).replace(/[^\/]*\.[^\/*]+$/, ""); }, //set location hash to path set: function (path) { location.hash = path; }, //test if a given url (string) is a path //NOTE might be exceptionally naive isPath: function (url) { return (/\//).test(url); }, //return a url path with the window's location protocol/hostname/pathname removed clean: function (url) { return url.replace(this.documentBase.domain, ""); }, //just return the url without an initial # stripHash: function (url) { return url.replace(/^#/, ""); }, stripQueryParams: function (url) { return url.replace(/\?.*$/, ""); }, //remove the preceding hash, any query params, and dialog notations cleanHash: function (hash) { return path.stripHash(hash.replace(/\?.*$/, "")); }, isHashValid: function (hash) { return (/^#[^#]+$/).test(hash); }, //check whether a url is referencing the same domain, or an external domain or different protocol //could be mailto, etc isExternal: function (url) { var u = path.parseUrl(url); return !!(u.protocol && (u.domain.toLowerCase() !== this.documentUrl.domain.toLowerCase())); }, hasProtocol: function (url) { return (/^(:?\w+:)/).test(url); }, isEmbeddedPage: function (url) { var u = path.parseUrl(url); //if the path is absolute, then we need to compare the url against //both the this.documentUrl and the documentBase. The main reason for this //is that links embedded within external documents will refer to the //application document, whereas links embedded within the application //document will be resolved against the document base. if (u.protocol !== "") { return (!this.isPath(u.hash) && u.hash && (u.hrefNoHash === this.documentUrl.hrefNoHash || (this.documentBaseDiffers && u.hrefNoHash === this.documentBase.hrefNoHash))); } return (/^#/).test(u.href); }, squash: function (url, resolutionUrl) { var href, cleanedUrl, search, stateIndex, docUrl, isPath = this.isPath(url), uri = this.parseUrl(url), preservedHash = uri.hash, uiState = ""; // produce a url against which we can resolve the provided path if (!resolutionUrl) { if (isPath) { resolutionUrl = path.getLocation(); } else { docUrl = path.getDocumentUrl(true); if (path.isPath(docUrl.hash)) { resolutionUrl = path.squash(docUrl.href); } else { resolutionUrl = docUrl.href; } } } // If the url is anything but a simple string, remove any preceding hash // eg #foo/bar -> foo/bar // #foo -> #foo cleanedUrl = isPath ? path.stripHash(url) : url; // If the url is a full url with a hash check if the parsed hash is a path // if it is, strip the #, and use it otherwise continue without change cleanedUrl = path.isPath(uri.hash) ? path.stripHash(uri.hash) : cleanedUrl; // Split the UI State keys off the href stateIndex = cleanedUrl.indexOf(this.uiStateKey); // store the ui state keys for use if (stateIndex > -1) { uiState = cleanedUrl.slice(stateIndex); cleanedUrl = cleanedUrl.slice(0, stateIndex); } // make the cleanedUrl absolute relative to the resolution url href = path.makeUrlAbsolute(cleanedUrl, resolutionUrl); // grab the search from the resolved url since parsing from // the passed url may not yield the correct result search = this.parseUrl(href).search; // TODO all this crap is terrible, clean it up if (isPath) { // reject the hash if it's a path or it's just a dialog key if (path.isPath(preservedHash) || preservedHash.replace("#", "").indexOf(this.uiStateKey) === 0) { preservedHash = ""; } // Append the UI State keys where it exists and it's been removed // from the url if (uiState && preservedHash.indexOf(this.uiStateKey) === -1) { preservedHash += uiState; } // make sure that pound is on the front of the hash if (preservedHash.indexOf("#") === -1 && preservedHash !== "") { preservedHash = "#" + preservedHash; } // reconstruct each of the pieces with the new search string and hash href = path.parseUrl(href); href = href.protocol + href.doubleSlash + href.host + href.pathname + search + preservedHash; } else { href += href.indexOf("#") > -1 ? uiState : "#" + uiState; } return href; }, isPreservableHash: function (hash) { return hash.replace("#", "").indexOf(this.uiStateKey) === 0; }, // Escape weird characters in the hash if it is to be used as a selector hashToSelector: function (hash) { var hasHash = (hash.substring(0, 1) === "#"); if (hasHash) { hash = hash.substring(1); } return (hasHash ? "#" : "") + hash.replace(/([!"#$%&'()*+,./:;<=>?@[\]^`{|}~])/g, "\\$1"); }, // check if the specified url refers to the first page in the main // application document. isFirstPageUrl: function (url) { // We only deal with absolute paths. var u = path.parseUrl(path.makeUrlAbsolute(url, this.documentBase)), // Does the url have the same path as the document? samePath = u.hrefNoHash === this.documentUrl.hrefNoHash || (this.documentBaseDiffers && u.hrefNoHash === this.documentBase.hrefNoHash), // Get the first page element. fp = $.mobile.firstPage, // Get the id of the first page element if it has one. fpId = fp && fp[0] ? fp[0].id : undefined; // The url refers to the first page if the path matches the document and // it either has no hash value, or the hash is exactly equal to the id // of the first page element. return samePath && (!u.hash || u.hash === "#" || (fpId && u.hash.replace(/^#/, "") === fpId)); } }; path.documentUrl = path.parseLocation(); $base = $("head").find("base"); path.documentBase = $base.length ? path.parseUrl(path.makeUrlAbsolute($base.attr("href"), path.documentUrl.href)) : path.documentUrl; path.documentBaseDiffers = (path.documentUrl.hrefNoHash !== path.documentBase.hrefNoHash); //return the original document base url path.getDocumentBase = function (asParsedObject) { return asParsedObject ? $.extend({}, path.documentBase) : path.documentBase.href; }; // DEPRECATED as of 1.4.0 - remove in 1.5.0 $.extend($.mobile, { //return the original document url getDocumentUrl: path.getDocumentUrl, //return the original document base url getDocumentBase: path.getDocumentBase }); })(jQuery); (function ($, undefined) { $.mobile.History = function (stack, index) { this.stack = stack || []; this.activeIndex = index || 0; }; $.extend($.mobile.History.prototype, { getActive: function () { return this.stack[this.activeIndex]; }, getLast: function () { return this.stack[this.previousIndex]; }, getNext: function () { return this.stack[this.activeIndex + 1]; }, getPrev: function () { return this.stack[this.activeIndex - 1]; }, // addNew is used whenever a new page is added add: function (url, data) { data = data || {}; //if there's forward history, wipe it if (this.getNext()) { this.clearForward(); } // if the hash is included in the data make sure the shape // is consistent for comparison if (data.hash && data.hash.indexOf("#") === -1) { data.hash = "#" + data.hash; } data.url = url; this.stack.push(data); this.activeIndex = this.stack.length - 1; }, //wipe urls ahead of active index clearForward: function () { this.stack = this.stack.slice(0, this.activeIndex + 1); }, find: function (url, stack, earlyReturn) { stack = stack || this.stack; var entry, i, length = stack.length, index; for (i = 0; i < length; i++) { entry = stack[i]; if (decodeURIComponent(url) === decodeURIComponent(entry.url) || decodeURIComponent(url) === decodeURIComponent(entry.hash)) { index = i; if (earlyReturn) { return index; } } } return index; }, closest: function (url) { var closest, a = this.activeIndex; // First, take the slice of the history stack before the current index and search // for a url match. If one is found, we'll avoid avoid looking through forward history // NOTE the preference for backward history movement is driven by the fact that // most mobile browsers only have a dedicated back button, and users rarely use // the forward button in desktop browser anyhow closest = this.find(url, this.stack.slice(0, a)); // If nothing was found in backward history check forward. The `true` // value passed as the third parameter causes the find method to break // on the first match in the forward history slice. The starting index // of the slice must then be added to the result to get the element index // in the original history stack :( :( // // TODO this is hyper confusing and should be cleaned up (ugh so bad) if (closest === undefined) { closest = this.find(url, this.stack.slice(a), true); closest = closest === undefined ? closest : closest + a; } return closest; }, direct: function (opts) { var newActiveIndex = this.closest(opts.url), a = this.activeIndex; // save new page index, null check to prevent falsey 0 result // record the previous index for reference if (newActiveIndex !== undefined) { this.activeIndex = newActiveIndex; this.previousIndex = a; } // invoke callbacks where appropriate // // TODO this is also convoluted and confusing if (newActiveIndex < a) { (opts.present || opts.back || $.noop)(this.getActive(), "back"); } else if (newActiveIndex > a) { (opts.present || opts.forward || $.noop)(this.getActive(), "forward"); } else if (newActiveIndex === undefined && opts.missing) { opts.missing(this.getActive()); } } }); })(jQuery); (function ($, undefined) { var path = $.mobile.path, initialHref = location.href; $.mobile.Navigator = function (history) { this.history = history; this.ignoreInitialHashChange = true; window.addEventListener('popstate', $.proxy(this.popstate, this)); }; $.extend($.mobile.Navigator.prototype, { squash: function (url, data) { var state, href, hash = path.isPath(url) ? path.stripHash(url) : url; href = path.squash(url); // make sure to provide this information when it isn't explicitly set in the // data object that was passed to the squash method state = $.extend({ hash: hash, url: href }, data); // replace the current url with the new href and store the state // Note that in some cases we might be replacing an url with the // same url. We do this anyways because we need to make sure that // all of our history entries have a state object associated with // them. This allows us to work around the case where $.mobile.back() // is called to transition from an external page to an embedded page. // In that particular case, a hashchange event is *NOT* generated by the browser. // Ensuring each history entry has a state object means that onPopState() // will always trigger our hashchange callback even when a hashchange event // is not fired. window.history.replaceState(state, state.title || document.title, href); return state; }, hash: function (url, href) { var parsed, loc, hash, resolved; // Grab the hash for recording. If the passed url is a path // we used the parsed version of the squashed url to reconstruct, // otherwise we assume it's a hash and store it directly parsed = path.parseUrl(url); loc = path.parseLocation(); if (loc.pathname + loc.search === parsed.pathname + parsed.search) { // If the pathname and search of the passed url is identical to the current loc // then we must use the hash. Otherwise there will be no event // eg, url = "/foo/bar?baz#bang", location.href = "http://example.com/foo/bar?baz" hash = parsed.hash ? parsed.hash : parsed.pathname + parsed.search; } else if (path.isPath(url)) { resolved = path.parseUrl(href); // If the passed url is a path, make it domain relative and remove any trailing hash hash = resolved.pathname + resolved.search + (path.isPreservableHash(resolved.hash) ? resolved.hash.replace("#", "") : ""); } else { hash = url; } return hash; }, // TODO reconsider name go: function (url, data, noEvents) { var state, href, hash, popstateEvent; // Get the url as it would look squashed on to the current resolution url href = path.squash(url); // sort out what the hash sould be from the url hash = this.hash(url, href); // Here we prevent the next hash change or popstate event from doing any // history management. In the case of hashchange we don't swallow it // if there will be no hashchange fired (since that won't reset the value) // and will swallow the following hashchange if (noEvents && hash !== path.stripHash(path.parseLocation().hash)) { this.preventNextHashChange = noEvents; } // IMPORTANT in the case where popstate is supported the event will be triggered // directly, stopping further execution - ie, interupting the flow of this // method call to fire bindings at this expression. Below the navigate method // there is a binding to catch this event and stop its propagation. // // We then trigger a new popstate event on the window with a null state // so that the navigate events can conclude their work properly // // if the url is a path we want to preserve the query params that are available on // the current url. this.preventHashAssignPopState = true; window.location.hash = hash; // If popstate is enabled and the browser triggers `popstate` events when the hash // is set (this often happens immediately in browsers like Chrome), then the // this flag will be set to false already. If it's a browser that does not trigger // a `popstate` on hash assignement or `replaceState` then we need avoid the branch // that swallows the event created by the popstate generated by the hash assignment // At the time of this writing this happens with Opera 12 and some version of IE if (!browserInfo.safari) { this.preventHashAssignPopState = false; } state = $.extend({ url: href, hash: hash, title: document.title }, data); this.squash(url, state); // Trigger a new faux popstate event to replace the one that we // caught that was triggered by the hash setting above. if (!noEvents) { this.ignorePopState = true; //$(window).trigger(popstateEvent); window.dispatchEvent(new CustomEvent("popstate", { detail: { originalEvent: { type: "popstate", state: null } } })); } // record the history entry so that the information can be included // in hashchange event driven navigate events in a similar fashion to // the state that's provided by popstate this.history.add(state.url, state); }, // This binding is intended to catch the popstate events that are fired // when execution of the `$.navigate` method stops at window.location.hash = url; // and completely prevent them from propagating. The popstate event will then be // retriggered after execution resumes // // TODO grab the original event here and use it for the synthetic event in the // second half of the navigate execution that will follow this binding popstate: function (event) { if (ignorePopState(event)) { return; } setTimeout(function () { fireNavigateFromPopstateEvent(event); }, 0); var hash, state; // If this is the popstate triggered by the actual alteration of the hash // prevent it completely. History is tracked manually if (this.preventHashAssignPopState) { this.preventHashAssignPopState = false; event.stopImmediatePropagation(); return; } // if this is the popstate triggered after the `replaceState` call in the go // method, then simply ignore it. The history entry has already been captured if (this.ignorePopState) { this.ignorePopState = false; return; } var originalEventState = event.state || (event.detail ? event.detail.originalEvent.state : event.state); // If there is no state, and the history stack length is one were // probably getting the page load popstate fired by browsers like chrome // avoid it and set the one time flag to false. // TODO: Do we really need all these conditions? Comparing location hrefs // should be sufficient. if (!originalEventState && this.history.stack.length === 1 && this.ignoreInitialHashChange) { this.ignoreInitialHashChange = false; if (location.href === initialHref) { event.preventDefault(); return; } } // account for direct manipulation of the hash. That is, we will receive a popstate // when the hash is changed by assignment, and it won't have a state associated. We // then need to squash the hash. See below for handling of hash assignment that // matches an existing history entry // TODO it might be better to only add to the history stack // when the hash is adjacent to the active history entry hash = path.parseLocation().hash; if (!originalEventState && hash) { // squash the hash that's been assigned on the URL with replaceState // also grab the resulting state object for storage state = this.squash(hash); // record the new hash as an additional history entry // to match the browser's treatment of hash assignment this.history.add(state.url, state); // pass the newly created state information // along with the event event.historyState = state; // do not alter history, we've added a new history entry // so we know where we are return; } // If all else fails this is a popstate that comes from the back or forward buttons // make sure to set the state of our history stack properly, and record the directionality this.history.direct({ url: (originalEventState || {}).url || hash, // When the url is either forward or backward in history include the entry // as data on the event object for merging as data in the navigate event present: function (historyEntry, direction) { // make sure to create a new object to pass down as the navigate event data event.historyState = $.extend({}, historyEntry); event.historyState.direction = direction; } }); } }); })(jQuery); (function ($, undefined) { // TODO consider queueing navigation activity until previous activities have completed // so that end users don't have to think about it. Punting for now // TODO !! move the event bindings into callbacks on the navigate event $.mobile.navigate = function (url, data, noEvents) { $.mobile.navigate.navigator.go(url, data, noEvents); }; // expose the history on the navigate method in anticipation of full integration with // existing navigation functionalty that is tightly coupled to the history information $.mobile.navigate.history = new $.mobile.History(); // instantiate an instance of the navigator for use within the $.navigate method $.mobile.navigate.navigator = new $.mobile.Navigator($.mobile.navigate.history); var loc = $.mobile.path.parseLocation(); $.mobile.navigate.history.add(loc.href, { hash: loc.hash }); })(jQuery); (function ($, undefined) { function jqmPage(pageElem) { var self = this; if (pageElem.hasPage) { return; } pageElem.hasPage = true; pageElem.dispatchEvent(new CustomEvent("pagecreate", { bubbles: true })); self.element = $(pageElem); self.options = { theme: pageElem.getAttribute('data-theme') || 'a' }; self._enhance = function () { var attrPrefix = "data-"; var element = self.element[0]; element.setAttribute("data-role", 'page'); element.setAttribute("tabindex", "0"); element.classList.add("ui-page"); element.classList.add("ui-page-theme-" + self.options.theme); var contents = element.querySelectorAll("div[data-role='content']"); for (var i = 0, length = contents.length; i < length; i++) { var content = contents[i]; var theme = content.getAttribute(attrPrefix + "theme") || undefined; self.options.contentTheme = theme || self.options.contentTheme || (self.options.dialog && self.options.theme) || (self.element.data("role") === "dialog" && self.options.theme); content.classList.add("ui-content"); if (self.options.contentTheme) { content.classList.add("ui-body-" + (self.options.contentTheme)); } // Add ARIA role content.setAttribute("role", "main"); content.classList.add("ui-content"); } }; self._enhance(); self.element.enhanceWithin(); pageElem.dispatchEvent(new CustomEvent("pageinit", { bubbles: true })); } var pageCache = {}; function pageContainer(containerElem) { var self = this; self.element = containerElem; self.initSelector = false; window.addEventListener("navigate", function (e) { var url; if (e.defaultPrevented) { return; } var originalEvent = e.detail.originalEvent; if (originalEvent && originalEvent.defaultPrevented) { return; } var data = e.detail; url = originalEvent.type.indexOf("hashchange") > -1 ? data.state.hash : data.state.url; if (!url) { url = $.mobile.path.parseLocation().hash; } if (!url || url === "#" || url.indexOf("#" + $.mobile.path.uiStateKey) === 0) { url = location.href; } self._handleNavigate(url, data.state); }); self.back = function () { self.go(-1); }; self.forward = function () { self.go(1); }; self.go = function (steps) { window.history.go(steps); }; self._handleDestination = function (to) { // clean the hash for comparison if it's a url if ($.type(to) === "string") { to = $.mobile.path.stripHash(to); } if (to) { // At this point, 'to' can be one of 3 things, a cached page // element from a history stack entry, an id, or site-relative / // absolute URL. If 'to' is an id, we need to resolve it against // the documentBase, not the location.href, since the hashchange // could've been the result of a forward/backward navigation // that crosses from an external page/dialog to an internal // page/dialog. // // TODO move check to history object or path object? to = !$.mobile.path.isPath(to) ? ($.mobile.path.makeUrlAbsolute("#" + to, $.mobile.path.documentBase)) : to; } return to || $.mobile.firstPage; }; self._handleNavigate = function (url, data) { //find first page via hash // TODO stripping the hash twice with handleUrl var to = $.mobile.path.stripHash(url), // default options for the changPage calls made after examining // the current state of the page and the hash, NOTE that the // transition is derived from the previous history entry changePageOptions = { changeHash: false, fromHashChange: true, reverse: data.direction === "back" }; $.extend(changePageOptions, data, { transition: "none" }); $.mobile.changePage(self._handleDestination(to), changePageOptions); }; self._enhance = function (content, role) { new jqmPage(content[0]); }; self._include = function (page, jPage, settings) { // append to page and enhance jPage.appendTo(self.element); //alert(jPage[0].parentNode == this.element[0]); //this.element[0].appendChild(page); // use the page widget to enhance self._enhance(jPage, settings.role); }; self._find = function (absUrl) { // TODO consider supporting a custom callback var fileUrl = absUrl, dataUrl = self._createDataUrl(absUrl), page, initialContent = $.mobile.firstPage; // Check to see if the page already exists in the DOM. page = self.element[0].querySelector("[data-url='" + $.mobile.path.hashToSelector(dataUrl) + "']"); // If we failed to find the page, check to see if the url is a // reference to an embedded page. If so, it may have been dynamically // injected by a developer, in which case it would be lacking a // data-url attribute and in need of enhancement. if (!page && dataUrl && !$.mobile.path.isPath(dataUrl)) { page = self.element[0].querySelector($.mobile.path.hashToSelector("#" + dataUrl)); if (page) { $(page).attr("data-url", dataUrl) .data("url", dataUrl); } } // If we failed to find a page in the DOM, check the URL to see if it // refers to the first page in the application. Also check to make sure // our cached-first-page is actually in the DOM. Some user deployed // apps are pruning the first page from the DOM for various reasons. // We check for this case here because we don't want a first-page with // an id falling through to the non-existent embedded page error case. if (!page && $.mobile.path.isFirstPageUrl(fileUrl) && initialContent && initialContent.parent().length) { page = initialContent; } return page ? $(page) : $(); }; self._parse = function (html, fileUrl) { // TODO consider allowing customization of this method. It's very JQM specific var page, all = document.createElement('div'); //workaround to allow scripts to execute when included in page divs all.innerHTML = html; page = all.querySelector("div[data-role='page']"); //if page elem couldn't be found, create one and insert the body element's contents if (!page) { page = $("