ionic-angular
Version:
A powerful framework for building mobile and progressive web apps with JavaScript and Angular 2
580 lines • 20.2 kB
JavaScript
import { convertToViews, isNav, isTab, isTabs, DIRECTION_BACK } from './nav-util';
import { isArray, isPresent } from '../util/util';
import { ViewController } from './view-controller';
/**
* \@name DeepLinker
* \@description
* DeepLinker handles registering and displaying specific views based on URLs. It's used
* underneath NavController so you'll never have to interact with it directly. When a new
* view is push'ed with NavController, the URL is updated to match the path back to this
* page.
*
* Unlike traditional web apps, URLs don't dictate navigation in Ionic apps.
* Instead, URLs help us link to specific pieces of content as a breadcrumb.
* We keep the current URL updated as we navigate, but we use the NavController's
* push and pop, or navPush to move around. This makes it much easier
* to handle the kinds of complicated nested navigation native apps are known for.
*
* We refer to our URL system as a Deep Link system instead of a Router to encourage
* Ionic developers to think of URLs as a breadcrumb rather than as the source of
* truth in navigation. This encourages flexible navigation design and happy apps all
* over the world.
*
*
* \@usage
*
* DeepLinker can be used in the `IonicModule.forRoot` method, as the third parameter
*
* ```ts
* imports: [
* IonicModule.forRoot(MyApp, {}, {
* links: []
* })
* ]
* ```
*
* DeepLinker implements `DeepLinkerConfig`, which is an object with an array of links.
* So for basic example based on the blank starter, a link setup like so:
*
* ```ts
* imports: [
* IonicModule.forRoot(MyApp, {}, {
* links: [
* { component: HomePage, name: 'Home', segment: 'home' }
* ]
* })
* ]
* ```
*
* Since components/pages can be loaded anywhere in the app, DeepLinker lets you define their URL segment but
* doesn't require a full URL route.
*
* So, at any point a Page becomes the active page, we just append the URL segment.
*
* ### Dynamic Links
*
* Since passing data around is common practice in an app, we can reflect that in our app's URL by
* using the common `:param` syntax:
*
* ```ts
* links: [
* { component: HomePage, name: 'Home', segment: 'home' },
* { component: DetailPage, name: 'Detail', segment: 'detail/:userId' }
* ]
* ```
*
* In this case, when we `push` to a new instance of `DetailPage`, the `user` field of
* the data we pass to `push` will be put into the URL.
*
* The property needs to be something that can be serialized into a string by the DeepLinker.
*
* So in a typical `navCtrl.push()` scenario, we'd do something like this:
*
* ```ts
* pushPage(userInfo) {
* this.navCtrl.push(DetailPage, {
* 'userId': userInfo.id
* })
* }
* ```
*
*
*
* ### Default History
*
* While pages can be navigated to anywhere and loaded at any time, what happens when an app is launched from a deeplink while cold or suspended?
*
* By default, the page would be navigated to in the root NavController, but often the history stack is a UX design issue that you'll
* want to tweak as you iterate on the UX of your app.
*
* An example here is the App Store app on iOS. If you navigate to an app link to the App Store app, the app decides to show
* a single page for the app detail, and no back button. In constrast, opening an instagram link shows a back button that
* goes back to the profile page of the user. The point is: this back button experience is totally up to you as the designer
* of the app experience.
*
* This is where `defaultHistory` comes in.
*
* The `defaultHistory` property takes an array of components to create the initial history stack if none exists.
*
* ```ts
* links: [
* { component: HomePage, name: 'Home', segment: 'home' },
* { component: DetailPage, name: 'Detail', segment: 'detail/:userId', defaultHistory: [HomePage] }
* ]
* ```
*
* In this example above, if we launch the app at myapp.com/detail/4, then the user will see the DetailPage and then the back button will
* go to the HomePage.
*/
export class DeepLinker {
/**
* @param {?} _app
* @param {?} _serializer
* @param {?} _location
*/
constructor(_app, _serializer, _location) {
this._app = _app;
this._serializer = _serializer;
this._location = _location;
/**
* @internal
*/
this.segments = [];
/**
* @internal
*/
this.history = [];
}
/**
* \@internal
* @return {?}
*/
init() {
// scenario 1: Initial load of all navs from the initial browser URL
const /** @type {?} */ browserUrl = normalizeUrl(this._location.path());
(void 0) /* console.debug */;
// update the Path from the browser URL
this.segments = this._serializer.parse(browserUrl);
// remember this URL in our internal history stack
this.historyPush(browserUrl);
// listen for browser URL changes
this._location.subscribe((locationChg) => {
this.urlChange(normalizeUrl(locationChg.url));
});
}
/**
* The browser's location has been updated somehow.
* \@internal
* @param {?} browserUrl
* @return {?}
*/
urlChange(browserUrl) {
// do nothing if this url is the same as the current one
if (!this.isCurrentUrl(browserUrl)) {
if (this.isBackUrl(browserUrl)) {
// scenario 2: user clicked the browser back button
// scenario 4: user changed the browser URL to what was the back url was
// scenario 5: user clicked a link href that was the back url
(void 0) /* console.debug */;
this.historyPop();
}
else {
// scenario 3: user click forward button
// scenario 4: user changed browser URL that wasn't the back url
// scenario 5: user clicked a link href that wasn't the back url
(void 0) /* console.debug */;
this.historyPush(browserUrl);
}
// get the app's root nav
const /** @type {?} */ appRootNav = (this._app.getRootNav());
if (appRootNav) {
if (browserUrl === '/') {
// a url change to the index url
if (isPresent(this.indexAliasUrl)) {
// we already know the indexAliasUrl
// update the url to use the know alias
browserUrl = this.indexAliasUrl;
}
else {
// the url change is to the root but we don't
// already know the url used. So let's just
// reset the root nav to its root page
appRootNav.goToRoot({
updateUrl: false,
isNavRoot: true
});
return;
}
}
// normal url
this.segments = this._serializer.parse(browserUrl);
this.loadNavFromPath(appRootNav);
}
}
}
/**
* Update the deep linker using the NavController's current active view.
* \@internal
* @param {?} direction
* @return {?}
*/
navChange(direction) {
// all transitions completed
if (direction) {
// get the app's active nav, which is the lowest level one being viewed
const /** @type {?} */ activeNav = this._app.getActiveNav();
if (activeNav) {
// build up the segments of all the navs from the lowest level
this.segments = this.pathFromNavs(activeNav);
// build a string URL out of the Path
const /** @type {?} */ browserUrl = this._serializer.serialize(this.segments);
// update the browser's location
this.updateLocation(browserUrl, direction);
}
}
}
/**
* \@internal
* @param {?} browserUrl
* @param {?} direction
* @return {?}
*/
updateLocation(browserUrl, direction) {
if (this.indexAliasUrl === browserUrl) {
browserUrl = '/';
}
if (direction === DIRECTION_BACK && this.isBackUrl(browserUrl)) {
// this URL is exactly the same as the back URL
// it's safe to use the browser's location.back()
(void 0) /* console.debug */;
this.historyPop();
this._location.back();
}
else if (!this.isCurrentUrl(browserUrl)) {
// probably navigating forward
(void 0) /* console.debug */;
this.historyPush(browserUrl);
this._location.go(browserUrl);
}
}
/**
* \@internal
* @param {?} componentName
* @return {?}
*/
getComponentFromName(componentName) {
const /** @type {?} */ segment = this._serializer.createSegmentFromName(componentName);
if (segment && segment.component) {
return segment.component;
}
return null;
}
/**
* \@internal
* @param {?} nav
* @param {?} nameOrComponent
* @param {?} data
* @param {?=} prepareExternalUrl
* @return {?}
*/
createUrl(nav, nameOrComponent, data, prepareExternalUrl = true) {
// create a segment out of just the passed in name
const /** @type {?} */ segment = this._serializer.createSegmentFromName(nameOrComponent);
if (segment) {
const /** @type {?} */ path = this.pathFromNavs(nav, segment.component, data);
// serialize the segments into a browser URL
// and prepare the URL with the location and return
const /** @type {?} */ url = this._serializer.serialize(path);
return prepareExternalUrl ? this._location.prepareExternalUrl(url) : url;
}
return '';
}
/**
* Build a browser URL out of this NavController. Climbs up the tree
* of NavController's to create a string representation of all the
* NavControllers state.
*
* \@internal
* @param {?} nav
* @param {?=} component
* @param {?=} data
* @return {?}
*/
pathFromNavs(nav, component, data) {
const /** @type {?} */ segments = [];
let /** @type {?} */ view;
let /** @type {?} */ segment;
let /** @type {?} */ tabSelector;
// recursivly climb up the nav ancestors
// and set each segment's data
while (nav) {
// this could be an ion-nav, ion-tab or ion-portal
// if a component and data was already passed in then use it
// otherwise get this nav's active view controller
if (!component && isNav(nav)) {
view = nav.getActive(true);
if (view) {
component = view.component;
data = view.data;
}
}
// the ion-nav or ion-portal has an active view
// serialize the component and its data to a NavSegment
segment = this._serializer.serializeComponent(component, data);
// reset the component/data
component = data = null;
if (!segment) {
break;
}
// add the segment to the path
segments.push(segment);
if (isTab(nav)) {
// this nav is a Tab, which is a child of Tabs
// add a segment to represent which Tab is the selected one
tabSelector = this.getTabSelector(/** @type {?} */ (nav));
segments.push({
id: tabSelector,
name: tabSelector,
component: null,
data: null
});
// a parent to Tab is a Tabs
// we should skip over any Tabs and go to the next parent
nav = nav.parent && nav.parent.parent;
}
else {
// this is an ion-nav
// climb up to the next parent
nav = nav.parent;
}
}
// segments added from bottom to top, so Ti esrever dna ti pilf
return segments.reverse();
}
/**
* \@internal
* @param {?} tab
* @return {?}
*/
getTabSelector(tab) {
if (isPresent(tab.tabUrlPath)) {
return tab.tabUrlPath;
}
if (isPresent(tab.tabTitle)) {
return this._serializer.formatUrlPart(tab.tabTitle);
}
return `tab-${tab.index}`;
}
/**
* \@internal
* @param {?} tabsNav
* @param {?} pathName
* @param {?=} fallbackIndex
* @return {?}
*/
getSelectedTabIndex(tabsNav, pathName, fallbackIndex = 0) {
// we found a segment which probably represents which tab to select
const /** @type {?} */ indexMatch = pathName.match(/tab-(\d+)/);
if (indexMatch) {
// awesome, the segment name was something "tab-0", and
// the numbe represents which tab to select
return parseInt(indexMatch[1], 10);
}
// wasn't in the "tab-0" format so maybe it's using a word
const /** @type {?} */ tab = tabsNav._tabs.find(t => {
return (isPresent(t.tabUrlPath) && t.tabUrlPath === pathName) ||
(isPresent(t.tabTitle) && this._serializer.formatUrlPart(t.tabTitle) === pathName);
});
return isPresent(tab) ? tab.index : fallbackIndex;
}
/**
* Each NavController will call this method when it initializes for
* the first time. This allows each NavController to figure out
* where it lives in the path and load up the correct component.
* \@internal
* @param {?} nav
* @return {?}
*/
initNav(nav) {
const /** @type {?} */ path = this.segments;
if (nav && path.length) {
if (!nav.parent) {
// a nav without a parent is always the first nav segment
path[0].navId = nav.id;
return path[0];
}
for (var /** @type {?} */ i = 1; i < path.length; i++) {
if (path[i - 1].navId === nav.parent.id) {
// this nav's parent segment is the one before this segment's index
path[i].navId = nav.id;
return path[i];
}
}
}
return null;
}
/**
* \@internal
* @param {?} segment
* @return {?}
*/
initViews(segment) {
let /** @type {?} */ views;
if (isArray(segment.defaultHistory)) {
views = convertToViews(this, segment.defaultHistory);
}
else {
views = [];
}
const /** @type {?} */ view = new ViewController(segment.component, segment.data);
view.id = segment.id;
views.push(view);
return views;
}
/**
* Using the known Path of Segments, walk down all descendents
* from the root NavController and load each NavController according
* to each Segment. This is usually called after a browser URL and
* Path changes and needs to update all NavControllers to match
* the new browser URL. Because the URL is already known, it will
* not update the browser's URL when transitions have completed.
*
* \@internal
* @param {?} nav
* @param {?=} done
* @return {?}
*/
loadNavFromPath(nav, done) {
if (!nav) {
done && done();
}
else {
this.loadViewFromSegment(nav, () => {
this.loadNavFromPath(nav.getActiveChildNav(), done);
});
}
}
/**
* \@internal
* @param {?} navInstance
* @param {?} done
* @return {?}
*/
loadViewFromSegment(navInstance, done) {
// load up which nav ids belong to its nav segment
let /** @type {?} */ segment = this.initNav(navInstance);
if (!segment) {
done();
return;
}
if (isTabs(navInstance)) {
((navInstance)).select(this.getSelectedTabIndex(((navInstance)), segment.name), {
updateUrl: false,
animate: false
});
done();
return;
}
let /** @type {?} */ nav = (navInstance);
// walk backwards to see if the exact view we want to show here
// is already in the stack that we can just pop back to
let /** @type {?} */ view;
const /** @type {?} */ count = nav.length() - 1;
for (var /** @type {?} */ i = count; i >= 0; i--) {
view = nav.getByIndex(i);
if (view && view.id === segment.id) {
// hooray! we've already got a view loaded in the stack
// matching the view they wanted to show
if (i === count) {
// this is the last view in the stack and it's the same
// as the segment so there's no change needed
done();
}
else {
// it's not the exact view as the end
// let's have this nav go back to this exact view
nav.popTo(view, {
animate: false,
updateUrl: false,
}, done);
}
return;
}
}
// ok, so they must be pushing a new view to the stack
// since we didn't find this same component already in the stack
nav.push(segment.component, segment.data, {
id: segment.id, animate: false, updateUrl: false
}, done);
}
/**
* \@internal
* @param {?} browserUrl
* @return {?}
*/
isBackUrl(browserUrl) {
return (browserUrl === this.history[this.history.length - 2]);
}
/**
* \@internal
* @param {?} browserUrl
* @return {?}
*/
isCurrentUrl(browserUrl) {
return (browserUrl === this.history[this.history.length - 1]);
}
/**
* \@internal
* @param {?} browserUrl
* @return {?}
*/
historyPush(browserUrl) {
if (!this.isCurrentUrl(browserUrl)) {
this.history.push(browserUrl);
if (this.history.length > 30) {
this.history.shift();
}
}
}
/**
* \@internal
* @return {?}
*/
historyPop() {
this.history.pop();
if (!this.history.length) {
this.historyPush(this._location.path());
}
}
}
function DeepLinker_tsickle_Closure_declarations() {
/**
* \@internal
* @type {?}
*/
DeepLinker.prototype.segments;
/**
* \@internal
* @type {?}
*/
DeepLinker.prototype.history;
/**
* \@internal
* @type {?}
*/
DeepLinker.prototype.indexAliasUrl;
/** @type {?} */
DeepLinker.prototype._app;
/** @type {?} */
DeepLinker.prototype._serializer;
/** @type {?} */
DeepLinker.prototype._location;
}
/**
* @param {?} app
* @param {?} serializer
* @param {?} location
* @return {?}
*/
export function setupDeepLinker(app, serializer, location) {
const /** @type {?} */ deepLinker = new DeepLinker(app, serializer, location);
deepLinker.init();
return deepLinker;
}
/**
* @param {?} browserUrl
* @return {?}
*/
export function normalizeUrl(browserUrl) {
browserUrl = browserUrl.trim();
if (browserUrl.charAt(0) !== '/') {
// ensure first char is a /
browserUrl = '/' + browserUrl;
}
if (browserUrl.length > 1 && browserUrl.charAt(browserUrl.length - 1) === '/') {
// ensure last char is not a /
browserUrl = browserUrl.substr(0, browserUrl.length - 1);
}
return browserUrl;
}
//# sourceMappingURL=deep-linker.js.map