demo for ng1 app hosting ng2 components

Simple project demonstrating ng2 component hosting within ng1-based application (based on official angular-seed repo).
2025-05-12 17:04:57 +00:00 · 2016-04-06 15:23:19 +01:00 · 2016-04-06 15:23:19 +01:00 · f7e6ef55a2
commit f7e6ef55a2
parent f9e1ad80a9
49 changed files with 3228 additions and 0 deletions
--- a/ng1-hosting-ng2/.bowerrc
+++ b/ng1-hosting-ng2/.bowerrc
@ -0,0 +1,3 @@
 {
  "directory": "app/bower_components"
 }
--- a/ng1-hosting-ng2/.gitignore
+++ b/ng1-hosting-ng2/.gitignore
@ -0,0 +1,8 @@
 logs/*
 !.gitkeep
 typings/
 node_modules/
 bower_components/
 tmp
 .DS_Store
 .idea
--- a/ng1-hosting-ng2/.jshintrc
+++ b/ng1-hosting-ng2/.jshintrc
@ -0,0 +1,13 @@
 {
  "globalstrict": true,
  "globals": {
    "angular": false,
    "describe": false,
    "it": false,
    "expect": false,
    "beforeEach": false,
    "afterEach": false,
    "module": false,
    "inject": false
  }
 }
--- a/ng1-hosting-ng2/.travis.yml
+++ b/ng1-hosting-ng2/.travis.yml
@ -0,0 +1,14 @@
 language: node_js
 node_js:
  - "0.10"
 before_script:
  - export DISPLAY=:99.0
  - sh -e /etc/init.d/xvfb start
  - npm start > /dev/null &
  - npm run update-webdriver
  - sleep 1 # give server time to start
 script:
  - node_modules/.bin/karma start karma.conf.js --no-auto-watch --single-run --reporters=dots --browsers=Firefox
  - node_modules/.bin/protractor e2e-tests/protractor.conf.js --browser=firefox
--- a/ng1-hosting-ng2/LICENSE
+++ b/ng1-hosting-ng2/LICENSE
@ -0,0 +1,22 @@
 The MIT License
 Copyright (c) 2016 Alfresco
 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated documentation files (the "Software"), to deal
 in the Software without restriction, including without limitation the rights
 to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 copies of the Software, and to permit persons to whom the Software is
 furnished to do so, subject to the following conditions:
 The above copyright notice and this permission notice shall be included in
 all copies or substantial portions of the Software.
 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
--- a/ng1-hosting-ng2/README.md
+++ b/ng1-hosting-ng2/README.md
@ -0,0 +1,32 @@
 ### Install Dependencies
 We have two kinds of dependencies in this project: tools and angular framework code.  The tools help
 us manage and test the application.
 * We get the tools we depend upon via `npm`, the [node package manager][npm].
 * We get the angular code via `bower`, a [client-side code package manager][bower].
 We have preconfigured `npm` to automatically run `bower` so we can simply do:
 ```
 npm install
 ```
 Behind the scenes this will also call `bower install`.  You should find that you have two new
 folders in your project.
 * `node_modules` - contains the npm packages for the tools we need
 * `app/bower_components` - contains the angular framework files
 *Note that the `bower_components` folder would normally be installed in the root folder but
 angular-seed changes this location through the `.bowerrc` file.  Putting it in the app folder makes
 it easier to serve the files by a webserver.*
 ### Run the Application
 We have preconfigured the project with a simple development web server.  The simplest way to start
 this server is:
 ```
 npm start
 ```
--- a/ng1-hosting-ng2/app/app.component.js
+++ b/ng1-hosting-ng2/app/app.component.js
@ -0,0 +1,41 @@
 System.register(['angular2/core', "./components/ng2/tabs"], function(exports_1, context_1) {
    "use strict";
    var __moduleName = context_1 && context_1.id;
    var __decorate = (this && this.__decorate) || function (decorators, target, key, desc) {
        var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d;
        if (typeof Reflect === "object" && typeof Reflect.decorate === "function") r = Reflect.decorate(decorators, target, key, desc);
        else for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r;
        return c > 3 && r && Object.defineProperty(target, key, r), r;
    };
    var __metadata = (this && this.__metadata) || function (k, v) {
        if (typeof Reflect === "object" && typeof Reflect.metadata === "function") return Reflect.metadata(k, v);
    };
    var core_1, tabs_1;
    var AppComponent;
    return {
        setters:[
            function (core_1_1) {
                core_1 = core_1_1;
            },
            function (tabs_1_1) {
                tabs_1 = tabs_1_1;
            }],
        execute: function() {
            AppComponent = (function () {
                function AppComponent() {
                }
                AppComponent = __decorate([
                    core_1.Component({
                        selector: 'my-app',
                        template: "\n        <h2>Angular 2 components</h2>\n        <tabs>\n            <tab tabTitle=\"Foo\">\n                Content of tab Foo\n            </tab>\n            <tab tabTitle=\"Bar\">\n                Content of tab Bar\n            </tab>\n        </tabs>\n    ",
                        directives: [tabs_1.Tabs, tabs_1.Tab]
                    }), 
                    __metadata('design:paramtypes', [])
                ], AppComponent);
                return AppComponent;
            }());
            exports_1("AppComponent", AppComponent);
        }
    }
 });
 //# sourceMappingURL=app.component.js.map
--- a/ng1-hosting-ng2/app/app.component.js.map
+++ b/ng1-hosting-ng2/app/app.component.js.map
@ -0,0 +1 @@
 {"version":3,"file":"app.component.js","sourceRoot":"","sources":["app.component.ts"],"names":[],"mappings":";;;;;;;;;;;;;;;;;;;;;;;YAkBA;gBAAA;gBAA4B,CAAC;gBAf7B;oBAAC,gBAAS,CAAC;wBACP,QAAQ,EAAE,QAAQ;wBAClB,QAAQ,EAAE,wQAUT;wBACD,UAAU,EAAE,CAAC,WAAI,EAAE,UAAG,CAAC;qBAC1B,CAAC;;gCAAA;gBAC0B,mBAAC;YAAD,CAAC,AAA7B,IAA6B;YAA7B,uCAA6B,CAAA"}
--- a/ng1-hosting-ng2/app/app.component.ts
+++ b/ng1-hosting-ng2/app/app.component.ts
@ -0,0 +1,19 @@
 import {Component} from 'angular2/core';
 import {Tabs, Tab} from "./components/ng2/tabs";
@Component({
    selector: 'my-app',
    template: `
        <h2>Angular 2 components</h2>
        <tabs>
            <tab tabTitle="Foo">
                Content of tab Foo
            </tab>
            <tab tabTitle="Bar">
                Content of tab Bar
            </tab>
        </tabs>
    `,
    directives: [Tabs, Tab]
 })
 export class AppComponent { }
--- a/ng1-hosting-ng2/app/app.css
+++ b/ng1-hosting-ng2/app/app.css
@ -0,0 +1 @@
 body { padding-top: 70px; }
--- a/ng1-hosting-ng2/app/app.js
+++ b/ng1-hosting-ng2/app/app.js
@ -0,0 +1,13 @@
 'use strict';
 // Declare app level module which depends on views, and components
 angular.module('myApp', [
    'ngRoute',
    'myApp.view1',
    'myApp.view2',
    'myApp.view3',
    'myApp.version'
 ]).config(['$routeProvider', function ($routeProvider) {
    $routeProvider.otherwise({redirectTo: '/view1'});
 }]);
--- a/ng1-hosting-ng2/app/components/ng2/navbar.component.js
+++ b/ng1-hosting-ng2/app/components/ng2/navbar.component.js
@ -0,0 +1,37 @@
 System.register(["angular2/core"], function(exports_1, context_1) {
    "use strict";
    var __moduleName = context_1 && context_1.id;
    var __decorate = (this && this.__decorate) || function (decorators, target, key, desc) {
        var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d;
        if (typeof Reflect === "object" && typeof Reflect.decorate === "function") r = Reflect.decorate(decorators, target, key, desc);
        else for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r;
        return c > 3 && r && Object.defineProperty(target, key, r), r;
    };
    var __metadata = (this && this.__metadata) || function (k, v) {
        if (typeof Reflect === "object" && typeof Reflect.metadata === "function") return Reflect.metadata(k, v);
    };
    var core_1;
    var AppNavBar;
    return {
        setters:[
            function (core_1_1) {
                core_1 = core_1_1;
            }],
        execute: function() {
            AppNavBar = (function () {
                function AppNavBar() {
                }
                AppNavBar = __decorate([
                    core_1.Component({
                        selector: 'app-navbar',
                        template: "\n        <nav class=\"navbar navbar-default navbar-fixed-top\">\n            <div class=\"container-fluid\">\n                <ng-content></ng-content>\n            </div>\n        </nav>\n    "
                    }), 
                    __metadata('design:paramtypes', [])
                ], AppNavBar);
                return AppNavBar;
            }());
            exports_1("AppNavBar", AppNavBar);
        }
    }
 });
 //# sourceMappingURL=navbar.component.js.map
--- a/ng1-hosting-ng2/app/components/ng2/navbar.component.js.map
+++ b/ng1-hosting-ng2/app/components/ng2/navbar.component.js.map
@ -0,0 +1 @@
 {"version":3,"file":"navbar.component.js","sourceRoot":"","sources":["navbar.component.ts"],"names":[],"mappings":";;;;;;;;;;;;;;;;;;;;YAYA;gBAAA;gBAEA,CAAC;gBAZD;oBAAC,gBAAS,CAAC;wBACP,QAAQ,EAAE,YAAY;wBACtB,QAAQ,EAAE,oMAMT;qBACJ,CAAC;;6BAAA;gBAGF,gBAAC;YAAD,CAAC,AAFD,IAEC;YAFD,iCAEC,CAAA"}
--- a/ng1-hosting-ng2/app/components/ng2/navbar.component.ts
+++ b/ng1-hosting-ng2/app/components/ng2/navbar.component.ts
@ -0,0 +1,15 @@
 import {Component} from "angular2/core";
@Component({
    selector: 'app-navbar',
    template: `
        <nav class="navbar navbar-default navbar-fixed-top">
            <div class="container-fluid">
                <ng-content></ng-content>
            </div>
        </nav>
    `
 })
 export class AppNavBar {
 }
--- a/ng1-hosting-ng2/app/components/ng2/tabs.js
+++ b/ng1-hosting-ng2/app/components/ng2/tabs.js
@ -0,0 +1,71 @@
 System.register(['angular2/core'], function(exports_1, context_1) {
    "use strict";
    var __moduleName = context_1 && context_1.id;
    var __decorate = (this && this.__decorate) || function (decorators, target, key, desc) {
        var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d;
        if (typeof Reflect === "object" && typeof Reflect.decorate === "function") r = Reflect.decorate(decorators, target, key, desc);
        else for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r;
        return c > 3 && r && Object.defineProperty(target, key, r), r;
    };
    var __metadata = (this && this.__metadata) || function (k, v) {
        if (typeof Reflect === "object" && typeof Reflect.metadata === "function") return Reflect.metadata(k, v);
    };
    var core_1;
    var Tabs, Tab;
    return {
        setters:[
            function (core_1_1) {
                core_1 = core_1_1;
            }],
        execute: function() {
            Tabs = (function () {
                function Tabs() {
                    this.tabs = [];
                }
                Tabs.prototype.selectTab = function (tab, $event) {
                    this.tabs.forEach(function (tab) {
                        tab.active = false;
                    });
                    tab.active = true;
                    if ($event) {
                        $event.preventDefault();
                    }
                };
                Tabs.prototype.addTab = function (tab) {
                    if (this.tabs.length === 0) {
                        tab.active = true;
                    }
                    this.tabs.push(tab);
                };
                Tabs = __decorate([
                    core_1.Component({
                        selector: 'tabs',
                        template: "\n        <ul class=\"nav nav-tabs\">\n            <li *ngFor=\"#tab of tabs\" (click)=\"selectTab(tab, $event)\" [class.active]=\"tab.active\">\n                <a href=\"#\">{{tab.title}}</a>\n            </li>\n        </ul>\n        <ng-content></ng-content>\n    "
                    }), 
                    __metadata('design:paramtypes', [])
                ], Tabs);
                return Tabs;
            }());
            exports_1("Tabs", Tabs);
            Tab = (function () {
                function Tab(tabs) {
                    tabs.addTab(this);
                }
                __decorate([
                    core_1.Input('tabTitle'), 
                    __metadata('design:type', Object)
                ], Tab.prototype, "title", void 0);
                Tab = __decorate([
                    core_1.Component({
                        selector: 'tab',
                        template: "\n        <div [hidden]=\"!active\">\n            <ng-content></ng-content>\n        </div>\n    "
                    }), 
                    __metadata('design:paramtypes', [Tabs])
                ], Tab);
                return Tab;
            }());
            exports_1("Tab", Tab);
        }
    }
 });
 //# sourceMappingURL=tabs.js.map
--- a/ng1-hosting-ng2/app/components/ng2/tabs.js.map
+++ b/ng1-hosting-ng2/app/components/ng2/tabs.js.map
@ -0,0 +1 @@
 {"version":3,"file":"tabs.js","sourceRoot":"","sources":["tabs.ts"],"names":[],"mappings":";;;;;;;;;;;;;;;;;;;;YAaA;gBAAA;oBACI,SAAI,GAAU,EAAE,CAAC;gBAkBrB,CAAC;gBAhBG,wBAAS,GAAT,UAAU,GAAO,EAAE,MAAM;oBACrB,IAAI,CAAC,IAAI,CAAC,OAAO,CAAC,UAAA,GAAG;wBACjB,GAAG,CAAC,MAAM,GAAG,KAAK,CAAC;oBACvB,CAAC,CAAC,CAAC;oBACH,GAAG,CAAC,MAAM,GAAG,IAAI,CAAC;oBAClB,EAAE,CAAC,CAAC,MAAM,CAAC,CAAC,CAAC;wBACT,MAAM,CAAC,cAAc,EAAE,CAAC;oBAC5B,CAAC;gBACL,CAAC;gBAED,qBAAM,GAAN,UAAO,GAAO;oBACV,EAAE,CAAC,CAAC,IAAI,CAAC,IAAI,CAAC,MAAM,KAAK,CAAC,CAAC,CAAC,CAAC;wBACzB,GAAG,CAAC,MAAM,GAAG,IAAI,CAAC;oBACtB,CAAC;oBACD,IAAI,CAAC,IAAI,CAAC,IAAI,CAAC,GAAG,CAAC,CAAC;gBACxB,CAAC;gBA7BL;oBAAC,gBAAS,CAAC;wBACP,QAAQ,EAAE,MAAM;wBAChB,QAAQ,EAAE,8QAOT;qBACJ,CAAC;;wBAAA;gBAoBF,WAAC;YAAD,CAAC,AAnBD,IAmBC;YAnBD,uBAmBC,CAAA;YAWD;gBAII,aAAY,IAAU;oBAClB,IAAI,CAAC,MAAM,CAAC,IAAI,CAAC,CAAC;gBACtB,CAAC;gBALD;oBAAC,YAAK,CAAC,UAAU,CAAC;;kDAAA;gBATtB;oBAAC,gBAAS,CAAC;wBACP,QAAQ,EAAE,KAAK;wBACf,QAAQ,EAAE,mGAIT;qBACJ,CAAC;;uBAAA;gBAQF,UAAC;YAAD,CAAC,AAPD,IAOC;YAPD,qBAOC,CAAA"}
--- a/ng1-hosting-ng2/app/components/ng2/tabs.ts
+++ b/ng1-hosting-ng2/app/components/ng2/tabs.ts
@ -0,0 +1,51 @@
 import {Component, Input} from 'angular2/core';
@Component({
    selector: 'tabs',
    template: `
        <ul class="nav nav-tabs">
            <li *ngFor="#tab of tabs" (click)="selectTab(tab, $event)" [class.active]="tab.active">
                <a href="#">{{tab.title}}</a>
            </li>
        </ul>
        <ng-content></ng-content>
    `
 })
 export class Tabs {
    tabs: Tab[] = [];
    selectTab(tab:Tab, $event) {
        this.tabs.forEach(tab => {
            tab.active = false;
        });
        tab.active = true;
        if ($event) {
            $event.preventDefault();
        }
    }
    addTab(tab:Tab) {
        if (this.tabs.length === 0) {
            tab.active = true;
        }
        this.tabs.push(tab);
    }
 }
@Component({
    selector: 'tab',
    template: `
        <div [hidden]="!active">
            <ng-content></ng-content>
        </div>
    `
 })
 export class Tab {
    @Input('tabTitle') title;
    active: Boolean;
    constructor(tabs: Tabs) {
        tabs.addTab(this);
    }
 }
--- a/ng1-hosting-ng2/app/components/version/interpolate-filter.js
+++ b/ng1-hosting-ng2/app/components/version/interpolate-filter.js
@ -0,0 +1,9 @@
 'use strict';
 angular.module('myApp.version.interpolate-filter', [])
 .filter('interpolate', ['version', function(version) {
  return function(text) {
    return String(text).replace(/\%VERSION\%/mg, version);
  };
 }]);
--- a/ng1-hosting-ng2/app/components/version/interpolate-filter_test.js
+++ b/ng1-hosting-ng2/app/components/version/interpolate-filter_test.js
@ -0,0 +1,15 @@
 'use strict';
 describe('myApp.version module', function() {
  beforeEach(module('myApp.version'));
  describe('interpolate filter', function() {
    beforeEach(module(function($provide) {
      $provide.value('version', 'TEST_VER');
    }));
    it('should replace VERSION', inject(function(interpolateFilter) {
      expect(interpolateFilter('before %VERSION% after')).toEqual('before TEST_VER after');
    }));
  });
 });
--- a/ng1-hosting-ng2/app/components/version/version-directive.js
+++ b/ng1-hosting-ng2/app/components/version/version-directive.js
@ -0,0 +1,9 @@
 'use strict';
 angular.module('myApp.version.version-directive', [])
 .directive('appVersion', ['version', function(version) {
  return function(scope, elm, attrs) {
    elm.text(version);
  };
 }]);
--- a/ng1-hosting-ng2/app/components/version/version-directive_test.js
+++ b/ng1-hosting-ng2/app/components/version/version-directive_test.js
@ -0,0 +1,17 @@
 'use strict';
 describe('myApp.version module', function() {
  beforeEach(module('myApp.version'));
  describe('app-version directive', function() {
    it('should print current version', function() {
      module(function($provide) {
        $provide.value('version', 'TEST_VER');
      });
      inject(function($compile, $rootScope) {
        var element = $compile('<span app-version></span>')($rootScope);
        expect(element.text()).toEqual('TEST_VER');
      });
    });
  });
 });
--- a/ng1-hosting-ng2/app/components/version/version.js
+++ b/ng1-hosting-ng2/app/components/version/version.js
@ -0,0 +1,8 @@
 'use strict';
 angular.module('myApp.version', [
  'myApp.version.interpolate-filter',
  'myApp.version.version-directive'
 ])
 .value('version', '0.1');
--- a/ng1-hosting-ng2/app/components/version/version_test.js
+++ b/ng1-hosting-ng2/app/components/version/version_test.js
@ -0,0 +1,11 @@
 'use strict';
 describe('myApp.version module', function() {
  beforeEach(module('myApp.version'));
  describe('version service', function() {
    it('should return current version', inject(function(version) {
      expect(version).toEqual('0.1');
    }));
  });
 });
--- a/ng1-hosting-ng2/app/index-async.html
+++ b/ng1-hosting-ng2/app/index-async.html
@ -0,0 +1,58 @@
 <!doctype html>
 <html lang="en">
 <head>
  <meta charset="utf-8">
  <link rel="stylesheet" href="bower_components/html5-boilerplate/css/normalize.css">
  <link rel="stylesheet" href="bower_components/html5-boilerplate/css/main.css">
  <style>
    [ng-cloak] {
      display: none;
    }
  </style>
  <script src="bower_components/html5-boilerplate/js/vendor/modernizr-2.6.2.min.js"></script>
  <script>
    // include angular loader, which allows the files to load in any order
    //@@NG_LOADER_START@@
    // You need to run `npm run update-index-async` to inject the angular async code here
    //@@NG_LOADER_END@@
    // include a third-party async loader library
    /*!
     * $script.js v1.3
     * https://github.com/ded/script.js
     * Copyright: @ded & @fat - Dustin Diaz, Jacob Thornton 2011
     * Follow our software http://twitter.com/dedfat
     * License: MIT
     */
    !function(a,b,c){function t(a,c){var e=b.createElement("script"),f=j;e.onload=e.onerror=e[o]=function(){e[m]&&!/^c|loade/.test(e[m])||f||(e.onload=e[o]=null,f=1,c())},e.async=1,e.src=a,d.insertBefore(e,d.firstChild)}function q(a,b){p(a,function(a){return!b(a)})}var d=b.getElementsByTagName("head")[0],e={},f={},g={},h={},i="string",j=!1,k="push",l="DOMContentLoaded",m="readyState",n="addEventListener",o="onreadystatechange",p=function(a,b){for(var c=0,d=a.length;c<d;++c)if(!b(a[c]))return j;return 1};!b[m]&&b[n]&&(b[n](l,function r(){b.removeEventListener(l,r,j),b[m]="complete"},j),b[m]="loading");var s=function(a,b,d){function o(){if(!--m){e[l]=1,j&&j();for(var a in g)p(a.split("|"),n)&&!q(g[a],n)&&(g[a]=[])}}function n(a){return a.call?a():e[a]}a=a[k]?a:[a];var i=b&&b.call,j=i?b:d,l=i?a.join(""):b,m=a.length;c(function(){q(a,function(a){h[a]?(l&&(f[l]=1),o()):(h[a]=1,l&&(f[l]=1),t(s.path?s.path+a+".js":a,o))})},0);return s};s.get=t,s.ready=function(a,b,c){a=a[k]?a:[a];var d=[];!q(a,function(a){e[a]||d[k](a)})&&p(a,function(a){return e[a]})?b():!function(a){g[a]=g[a]||[],g[a][k](b),c&&c(d)}(a.join("|"));return s};var u=a.$script;s.noConflict=function(){a.$script=u;return this},typeof module!="undefined"&&module.exports?module.exports=s:a.$script=s}(this,document,setTimeout)
    // load all of the dependencies asynchronously.
    $script([
      'bower_components/angular/angular.js',
      'bower_components/angular-route/angular-route.js',
      'app.js',
      'view1/view1.js',
      'view2/view2.js',
      'components/version/version.js',
      'components/version/version-directive.js',
      'components/version/interpolate-filter.js'
    ], function() {
      // when all is done, execute bootstrap angular application
      angular.bootstrap(document, ['myApp']);
    });
  </script>
  <title>My AngularJS App</title>
  <link rel="stylesheet" href="app.css">
 </head>
 <body ng-cloak>
  <ul class="menu">
    <li><a href="#/view1">view1</a></li>
    <li><a href="#/view2">view2</a></li>
  </ul>
  <div ng-view></div>
  <div>Angular seed app: v<span app-version></span></div>
 </body>
 </html>
--- a/ng1-hosting-ng2/app/main.js
+++ b/ng1-hosting-ng2/app/main.js
@ -0,0 +1,32 @@
 /*
 import {bootstrap}    from 'angular2/platform/browser';
 import {AppComponent} from './app.component';
 bootstrap(AppComponent);
 */
 System.register(['angular2/upgrade', './app.component', "./components/ng2/navbar.component"], function(exports_1, context_1) {
    "use strict";
    var __moduleName = context_1 && context_1.id;
    var upgrade_1, app_component_1, navbar_component_1;
    var upgradeAdapter;
    return {
        setters:[
            function (upgrade_1_1) {
                upgrade_1 = upgrade_1_1;
            },
            function (app_component_1_1) {
                app_component_1 = app_component_1_1;
            },
            function (navbar_component_1_1) {
                navbar_component_1 = navbar_component_1_1;
            }],
        execute: function() {
            upgradeAdapter = new upgrade_1.UpgradeAdapter();
            angular.module('myApp')
                .directive('myApp', upgradeAdapter.downgradeNg2Component(app_component_1.AppComponent))
                .directive('appNavbar', upgradeAdapter.downgradeNg2Component(navbar_component_1.AppNavBar));
            upgradeAdapter.bootstrap(document.body, ['myApp'], { strictDi: true });
        }
    }
 });
 //# sourceMappingURL=main.js.map
--- a/ng1-hosting-ng2/app/main.js.map
+++ b/ng1-hosting-ng2/app/main.js.map
@ -0,0 +1 @@
 {"version":3,"file":"main.js","sourceRoot":"","sources":["main.ts"],"names":[],"mappings":"AAAA;;;;;EAKE;;;;;QAMI,cAAc;;;;;;;;;;;;;YAAd,cAAc,GAAG,IAAI,wBAAc,EAAE,CAAC;YAG5C,OAAO,CAAC,MAAM,CAAC,OAAO,CAAC;iBAClB,SAAS,CAAC,OAAO,EAAE,cAAc,CAAC,qBAAqB,CAAC,4BAAY,CAAC,CAAC;iBACtE,SAAS,CAAC,WAAW,EAAE,cAAc,CAAC,qBAAqB,CAAC,4BAAS,CAAC,CAAC,CAC3E;YACD,cAAc,CAAC,SAAS,CAAC,QAAQ,CAAC,IAAI,EAAE,CAAC,OAAO,CAAC,EAAE,EAAC,QAAQ,EAAE,IAAI,EAAC,CAAC,CAAC"}
--- a/ng1-hosting-ng2/app/main.ts
+++ b/ng1-hosting-ng2/app/main.ts
@ -0,0 +1,19 @@
 /*
 import {bootstrap}    from 'angular2/platform/browser';
 import {AppComponent} from './app.component';
 bootstrap(AppComponent);
 */
 import {UpgradeAdapter} from 'angular2/upgrade';
 import {AppComponent} from './app.component';
 import {AppNavBar} from "./components/ng2/navbar.component";
 const upgradeAdapter = new UpgradeAdapter();
 declare var angular: any;
 angular.module('myApp')
    .directive('myApp', upgradeAdapter.downgradeNg2Component(AppComponent))
    .directive('appNavbar', upgradeAdapter.downgradeNg2Component(AppNavBar))
 ;
 upgradeAdapter.bootstrap(document.body, ['myApp'], {strictDi: true});
--- a/ng1-hosting-ng2/app/view1/view1.html
+++ b/ng1-hosting-ng2/app/view1/view1.html
@ -0,0 +1,3 @@
 <p>This is the partial for view 1.</p>
 <h3>Top navigation bar is an Angular 2 component with Angular 1 link buttons</h3>
--- a/ng1-hosting-ng2/app/view1/view1.js
+++ b/ng1-hosting-ng2/app/view1/view1.js
@ -0,0 +1,14 @@
 'use strict';
 angular.module('myApp.view1', ['ngRoute'])
 .config(['$routeProvider', function($routeProvider) {
  $routeProvider.when('/view1', {
    templateUrl: 'app/view1/view1.html',
    controller: 'View1Ctrl'
  });
 }])
 .controller('View1Ctrl', [function() {
 }]);
--- a/ng1-hosting-ng2/app/view1/view1_test.js
+++ b/ng1-hosting-ng2/app/view1/view1_test.js
@ -0,0 +1,16 @@
 'use strict';
 describe('myApp.view1 module', function() {
  beforeEach(module('myApp.view1'));
  describe('view1 controller', function(){
    it('should ....', inject(function($controller) {
      //spec body
      var view1Ctrl = $controller('View1Ctrl');
      expect(view1Ctrl).toBeDefined();
    }));
  });
 });
--- a/ng1-hosting-ng2/app/view2/view2.html
+++ b/ng1-hosting-ng2/app/view2/view2.html
@ -0,0 +1,5 @@
 <p>This is the partial for view 2.</p>
 <p>
  Showing of 'interpolate' filter:
  {{ 'Current version is v%VERSION%.' | interpolate }}
 </p>
--- a/ng1-hosting-ng2/app/view2/view2.js
+++ b/ng1-hosting-ng2/app/view2/view2.js
@ -0,0 +1,14 @@
 'use strict';
 angular.module('myApp.view2', ['ngRoute'])
 .config(['$routeProvider', function($routeProvider) {
  $routeProvider.when('/view2', {
    templateUrl: 'app/view2/view2.html',
    controller: 'View2Ctrl'
  });
 }])
 .controller('View2Ctrl', [function() {
 }]);
--- a/ng1-hosting-ng2/app/view2/view2_test.js
+++ b/ng1-hosting-ng2/app/view2/view2_test.js
@ -0,0 +1,16 @@
 'use strict';
 describe('myApp.view2 module', function() {
  beforeEach(module('myApp.view2'));
  describe('view2 controller', function(){
    it('should ....', inject(function($controller) {
      //spec body
      var view2Ctrl = $controller('View2Ctrl');
      expect(view2Ctrl).toBeDefined();
    }));
  });
 });
--- a/ng1-hosting-ng2/app/view3/view3.html
+++ b/ng1-hosting-ng2/app/view3/view3.html
@ -0,0 +1,4 @@
 <p>This is the partial for view 3 (ng1)</p>
 <my-app>Loading...</my-app>
 <br>
--- a/ng1-hosting-ng2/app/view3/view3.js
+++ b/ng1-hosting-ng2/app/view3/view3.js
@ -0,0 +1,14 @@
 'use strict';
 angular.module('myApp.view3', ['ngRoute'])
 .config(['$routeProvider', function($routeProvider) {
  $routeProvider.when('/view3', {
    templateUrl: 'app/view3/view3.html',
    controller: 'View3Ctrl'
  });
 }])
 .controller('View3Ctrl', [function() {
 }]);
--- a/ng1-hosting-ng2/bower.json
+++ b/ng1-hosting-ng2/bower.json
@ -0,0 +1,15 @@
 {
  "name": "angular-seed",
  "description": "A starter project for AngularJS",
  "version": "0.0.0",
  "homepage": "https://github.com/angular/angular-seed",
  "license": "MIT",
  "private": true,
  "dependencies": {
    "angular": "~1.4.0",
    "angular-route": "~1.4.0",
    "angular-loader": "~1.4.0",
    "angular-mocks": "~1.4.0",
    "html5-boilerplate": "~5.2.0"
  }
 }
--- a/ng1-hosting-ng2/e2e-tests/protractor.conf.js
+++ b/ng1-hosting-ng2/e2e-tests/protractor.conf.js
@ -0,0 +1,19 @@
 exports.config = {
  allScriptsTimeout: 11000,
  specs: [
    '*.js'
  ],
  capabilities: {
    'browserName': 'chrome'
  },
  baseUrl: 'http://localhost:8000/app/',
  framework: 'jasmine',
  jasmineNodeOpts: {
    defaultTimeoutInterval: 30000
  }
 };
--- a/ng1-hosting-ng2/e2e-tests/scenarios.js
+++ b/ng1-hosting-ng2/e2e-tests/scenarios.js
@ -0,0 +1,42 @@
 'use strict';
 /* https://github.com/angular/protractor/blob/master/docs/toc.md */
 describe('my app', function() {
  it('should automatically redirect to /view1 when location hash/fragment is empty', function() {
    browser.get('index.html');
    expect(browser.getLocationAbsUrl()).toMatch("/view1");
  });
  describe('view1', function() {
    beforeEach(function() {
      browser.get('index.html#/view1');
    });
    it('should render view1 when user navigates to /view1', function() {
      expect(element.all(by.css('[ng-view] p')).first().getText()).
        toMatch(/partial for view 1/);
    });
  });
  describe('view2', function() {
    beforeEach(function() {
      browser.get('index.html#/view2');
    });
    it('should render view2 when user navigates to /view2', function() {
      expect(element.all(by.css('[ng-view] p')).first().getText()).
        toMatch(/partial for view 2/);
    });
  });
 });
--- a/ng1-hosting-ng2/index.html
+++ b/ng1-hosting-ng2/index.html
@ -0,0 +1,87 @@
 <!DOCTYPE html>
 <html lang="en" class="no-js">
 <head>
  <meta charset="utf-8">
  <meta http-equiv="X-UA-Compatible" content="IE=edge">
  <title>My AngularJS App</title>
  <meta name="description" content="">
  <meta name="viewport" content="width=device-width, initial-scale=1">
  <link rel="stylesheet" href="node_modules/bootstrap/dist/css/bootstrap.min.css">
  <link rel="stylesheet" href="app/bower_components/html5-boilerplate/dist/css/normalize.css">
  <link rel="stylesheet" href="app/bower_components/html5-boilerplate/dist/css/main.css">
  <link rel="stylesheet" href="app/app.css">
  <script src="app/bower_components/html5-boilerplate/dist/js/vendor/modernizr-2.8.3.min.js"></script>
  <!-- Angular2 integration -->
  <!-- 1. Load libraries -->
  <!-- IE required polyfills, in this exact order -->
  <script src="node_modules/es6-shim/es6-shim.min.js"></script>
  <script src="node_modules/systemjs/dist/system-polyfills.js"></script>
  <script src="node_modules/angular2/es6/dev/src/testing/shims_for_IE.js"></script>
  <script src="node_modules/angular2/bundles/angular2-polyfills.js"></script>
  <script src="node_modules/systemjs/dist/system.src.js"></script>
  <script src="node_modules/rxjs/bundles/Rx.js"></script>
  <script src="node_modules/angular2/bundles/angular2.dev.js"></script>
  <script src="node_modules/angular2/bundles/upgrade.dev.js"></script>
  <!-- additional 3rd party libs -->
  <script src="node_modules/jquery/dist/jquery.min.js"></script>
  <script src="node_modules/bootstrap/dist/js/bootstrap.min.js"></script>
 </head>
 <body>
  <app-navbar>
    <div class="navbar-header">
      <button type="button" class="navbar-toggle collapsed" data-toggle="collapse" data-target="#bs-example-navbar-collapse-1" aria-expanded="false">
        <span class="sr-only">Toggle navigation</span>
        <span class="icon-bar"></span>
        <span class="icon-bar"></span>
        <span class="icon-bar"></span>
      </button>
      <a class="navbar-brand" [routerLink]="['Home']">Demo</a>
    </div>
    <div class="collapse navbar-collapse" id="bs-example-navbar-collapse-1">
      <ul class="nav navbar-nav">
        <li><a href="#/view1">view1 (ng1)</a></li>
        <li><a href="#/view2">view2 (ng1)</a></li>
        <li><a href="#/view3">view3 (ng1+2)</a></li>
      </ul>
    </div>
  </app-navbar>
  <div ng-view></div>
  <div>Angular seed app: v<span app-version></span></div>
  <div><a href="https://github.com/angular/angular-seed">https://github.com/angular/angular-seed</a></div>
  <!-- In production use:
  <script src="//ajax.googleapis.com/ajax/libs/angularjs/x.x.x/angular.min.js"></script>
  -->
  <script src="app/bower_components/angular/angular.js"></script>
  <script src="app/bower_components/angular-route/angular-route.js"></script>
  <script src="app/app.js"></script>
  <script src="app/view1/view1.js"></script>
  <script src="app/view2/view2.js"></script>
  <script src="app/view3/view3.js"></script>
  <script src="app/components/version/version.js"></script>
  <script src="app/components/version/version-directive.js"></script>
  <script src="app/components/version/interpolate-filter.js"></script>
  <!-- 2. Configure SystemJS -->
  <script>
    System.config({
      packages: {
        app: {
          format: 'register',
          defaultExtension: 'js'
        }
      }
    });
    System.import('app/main').then(null, console.error.bind(console));
  </script>
 </body>
 </html>
--- a/ng1-hosting-ng2/karma.conf.js
+++ b/ng1-hosting-ng2/karma.conf.js
@ -0,0 +1,33 @@
 module.exports = function(config){
  config.set({
    basePath : './',
    files : [
      'app/bower_components/angular/angular.js',
      'app/bower_components/angular-route/angular-route.js',
      'app/bower_components/angular-mocks/angular-mocks.js',
      'app/components/**/*.js',
      'app/view*/**/*.js'
    ],
    autoWatch : true,
    frameworks: ['jasmine'],
    browsers : ['Chrome'],
    plugins : [
            'karma-chrome-launcher',
            'karma-firefox-launcher',
            'karma-jasmine',
            'karma-junit-reporter'
            ],
    junitReporter : {
      outputFile: 'test_out/unit.xml',
      suite: 'unit'
    }
  });
 };
--- a/ng1-hosting-ng2/package.json
+++ b/ng1-hosting-ng2/package.json
@ -0,0 +1,57 @@
 {
  "name": "angular-seed",
  "private": true,
  "version": "0.0.0",
  "description": "A starter project for AngularJS",
  "repository": "https://github.com/angular/angular-seed",
  "license": "MIT",
  "devDependencies": {
    "bower": "^1.3.1",
    "http-server": "^0.6.1",
    "jasmine-core": "^2.3.4",
    "karma": "~0.12",
    "karma-chrome-launcher": "^0.1.12",
    "karma-firefox-launcher": "^0.1.6",
    "karma-jasmine": "^0.3.5",
    "karma-junit-reporter": "^0.2.2",
    "protractor": "^2.1.0",
    "shelljs": "^0.2.6",
    "jquery": "^2.2.2",
    "bootstrap": "^3.3.6",
    "angular2": "2.0.0-beta.13",
    "systemjs": "0.19.25",
    "es6-shim": "^0.35.0",
    "reflect-metadata": "0.1.2",
    "rxjs": "5.0.0-beta.2",
    "zone.js": "0.6.6",
    "concurrently": "^2.0.0",
    "lite-server": "^2.1.0",
    "typescript": "^1.8.9",
    "typings":"^0.7.11"
  },
  "scripts": {
    "prestart": "npm install",
    "pretest": "npm install",
    "test": "karma start karma.conf.js",
    "test-single-run": "karma start karma.conf.js  --single-run",
    "preupdate-webdriver": "npm install",
    "update-webdriver": "webdriver-manager update",
    "preprotractor": "npm run update-webdriver",
    "protractor": "protractor e2e-tests/protractor.conf.js",
    "update-index-async": "node -e \"require('shelljs/global'); sed('-i', /\\/\\/@@NG_LOADER_START@@[\\s\\S]*\\/\\/@@NG_LOADER_END@@/, '//@@NG_LOADER_START@@\\n' + sed(/sourceMappingURL=angular-loader.min.js.map/,'sourceMappingURL=bower_components/angular-loader/angular-loader.min.js.map','app/bower_components/angular-loader/angular-loader.min.js') + '\\n//@@NG_LOADER_END@@', 'app/index-async.html');\"",
    "start": "concurrently \"npm run tsc:w\" \"npm run lite\" ",
    "tsc": "tsc",
    "tsc:w": "tsc -w",
    "lite": "lite-server",
    "typings": "typings",
    "postinstall": "bower install && typings install"
  }
 }
--- a/ng1-hosting-ng2/tsconfig.json
+++ b/ng1-hosting-ng2/tsconfig.json
@ -0,0 +1,17 @@
 {
    "compilerOptions": {
        "target": "es5",
        "module": "system",
        "moduleResolution": "node",
        "sourceMap": true,
        "emitDecoratorMetadata": true,
        "experimentalDecorators": true,
        "removeComments": false,
        "noImplicitAny": false
    },
    "exclude": [
        "node_modules",
        "typings/main",
        "typings/main.d.ts"
    ]
 }
--- a/ng1-hosting-ng2/typings.json
+++ b/ng1-hosting-ng2/typings.json
@ -0,0 +1,6 @@
 {
    "ambientDependencies": {
        "es6-shim": "github:DefinitelyTyped/DefinitelyTyped/es6-shim/es6-shim.d.ts#7de6c3dd94feaeb21f20054b9f30d5dabc5efabd",
        "jasmine": "github:DefinitelyTyped/DefinitelyTyped/jasmine/jasmine.d.ts#7de6c3dd94feaeb21f20054b9f30d5dabc5efabd"
    }
 }
--- a/ng1-hosting-ng2/typings/browser.d.ts
+++ b/ng1-hosting-ng2/typings/browser.d.ts
@ -0,0 +1,2 @@
 /// <reference path="browser/ambient/es6-shim/index.d.ts" />
 /// <reference path="browser/ambient/jasmine/index.d.ts" />
--- a/ng1-hosting-ng2/typings/browser/ambient/es6-shim/index.d.ts
+++ b/ng1-hosting-ng2/typings/browser/ambient/es6-shim/index.d.ts
@ -0,0 +1,670 @@
 // Generated by typings
 // Source: https://raw.githubusercontent.com/DefinitelyTyped/DefinitelyTyped/7de6c3dd94feaeb21f20054b9f30d5dabc5efabd/es6-shim/es6-shim.d.ts
 // Type definitions for es6-shim v0.31.2
 // Project: https://github.com/paulmillr/es6-shim
 // Definitions by: Ron Buckton <http://github.com/rbuckton>
 // Definitions: https://github.com/DefinitelyTyped/DefinitelyTyped
 declare type PropertyKey = string | number | symbol;
 interface IteratorResult<T> {
    done: boolean;
    value?: T;
 }
 interface IterableShim<T> {
    /**
      * Shim for an ES6 iterable. Not intended for direct use by user code.
      */
    "_es6-shim iterator_"(): Iterator<T>;
 }
 interface Iterator<T> {
    next(value?: any): IteratorResult<T>;
    return?(value?: any): IteratorResult<T>;
    throw?(e?: any): IteratorResult<T>;
 }
 interface IterableIteratorShim<T> extends IterableShim<T>, Iterator<T> {
    /**
      * Shim for an ES6 iterable iterator. Not intended for direct use by user code.
      */
    "_es6-shim iterator_"(): IterableIteratorShim<T>;
 }
 interface StringConstructor {
    /**
      * Return the String value whose elements are, in order, the elements in the List elements.
      * If length is 0, the empty string is returned.
      */
    fromCodePoint(...codePoints: number[]): string;
    /**
      * String.raw is intended for use as a tag function of a Tagged Template String. When called
      * as such the first argument will be a well formed template call site object and the rest
      * parameter will contain the substitution values.
      * @param template A well-formed template string call site representation.
      * @param substitutions A set of substitution values.
      */
    raw(template: TemplateStringsArray, ...substitutions: any[]): string;
 }
 interface String {
    /**
      * Returns a nonnegative integer Number less than 1114112 (0x110000) that is the code point
      * value of the UTF-16 encoded code point starting at the string element at position pos in
      * the String resulting from converting this object to a String.
      * If there is no element at that position, the result is undefined.
      * If a valid UTF-16 surrogate pair does not begin at pos, the result is the code unit at pos.
      */
    codePointAt(pos: number): number;
    /**
      * Returns true if searchString appears as a substring of the result of converting this
      * object to a String, at one or more positions that are
      * greater than or equal to position; otherwise, returns false.
      * @param searchString search string
      * @param position If position is undefined, 0 is assumed, so as to search all of the String.
      */
    includes(searchString: string, position?: number): boolean;
    /**
      * Returns true if the sequence of elements of searchString converted to a String is the
      * same as the corresponding elements of this object (converted to a String) starting at
      * endPosition – length(this). Otherwise returns false.
      */
    endsWith(searchString: string, endPosition?: number): boolean;
    /**
      * Returns a String value that is made from count copies appended together. If count is 0,
      * T is the empty String is returned.
      * @param count number of copies to append
      */
    repeat(count: number): string;
    /**
      * Returns true if the sequence of elements of searchString converted to a String is the
      * same as the corresponding elements of this object (converted to a String) starting at
      * position. Otherwise returns false.
      */
    startsWith(searchString: string, position?: number): boolean;
    /**
      * Returns an <a> HTML anchor element and sets the name attribute to the text value
      * @param name
      */
    anchor(name: string): string;
    /** Returns a <big> HTML element */
    big(): string;
    /** Returns a <blink> HTML element */
    blink(): string;
    /** Returns a <b> HTML element */
    bold(): string;
    /** Returns a <tt> HTML element */
    fixed(): string
    /** Returns a <font> HTML element and sets the color attribute value */
    fontcolor(color: string): string
    /** Returns a <font> HTML element and sets the size attribute value */
    fontsize(size: number): string;
    /** Returns a <font> HTML element and sets the size attribute value */
    fontsize(size: string): string;
    /** Returns an <i> HTML element */
    italics(): string;
    /** Returns an <a> HTML element and sets the href attribute value */
    link(url: string): string;
    /** Returns a <small> HTML element */
    small(): string;
    /** Returns a <strike> HTML element */
    strike(): string;
    /** Returns a <sub> HTML element */
    sub(): string;
    /** Returns a <sup> HTML element */
    sup(): string;
    /**
      * Shim for an ES6 iterable. Not intended for direct use by user code.
      */
    "_es6-shim iterator_"(): IterableIteratorShim<string>;
 }
 interface ArrayConstructor {
    /**
      * Creates an array from an array-like object.
      * @param arrayLike An array-like object to convert to an array.
      * @param mapfn A mapping function to call on every element of the array.
      * @param thisArg Value of 'this' used to invoke the mapfn.
      */
    from<T, U>(arrayLike: ArrayLike<T>, mapfn: (v: T, k: number) => U, thisArg?: any): Array<U>;
    /**
      * Creates an array from an iterable object.
      * @param iterable An iterable object to convert to an array.
      * @param mapfn A mapping function to call on every element of the array.
      * @param thisArg Value of 'this' used to invoke the mapfn.
      */
    from<T, U>(iterable: IterableShim<T>, mapfn: (v: T, k: number) => U, thisArg?: any): Array<U>;
    /**
      * Creates an array from an array-like object.
      * @param arrayLike An array-like object to convert to an array.
      */
    from<T>(arrayLike: ArrayLike<T>): Array<T>;
    /**
      * Creates an array from an iterable object.
      * @param iterable An iterable object to convert to an array.
      */
    from<T>(iterable: IterableShim<T>): Array<T>;
    /**
      * Returns a new array from a set of elements.
      * @param items A set of elements to include in the new array object.
      */
    of<T>(...items: T[]): Array<T>;
 }
 interface Array<T> {
    /**
      * Returns the value of the first element in the array where predicate is true, and undefined
      * otherwise.
      * @param predicate find calls predicate once for each element of the array, in ascending
      * order, until it finds one where predicate returns true. If such an element is found, find
      * immediately returns that element value. Otherwise, find returns undefined.
      * @param thisArg If provided, it will be used as the this value for each invocation of
      * predicate. If it is not provided, undefined is used instead.
      */
    find(predicate: (value: T, index: number, obj: Array<T>) => boolean, thisArg?: any): T;
    /**
      * Returns the index of the first element in the array where predicate is true, and undefined
      * otherwise.
      * @param predicate find calls predicate once for each element of the array, in ascending
      * order, until it finds one where predicate returns true. If such an element is found, find
      * immediately returns that element value. Otherwise, find returns undefined.
      * @param thisArg If provided, it will be used as the this value for each invocation of
      * predicate. If it is not provided, undefined is used instead.
      */
    findIndex(predicate: (value: T) => boolean, thisArg?: any): number;
    /**
      * Returns the this object after filling the section identified by start and end with value
      * @param value value to fill array section with
      * @param start index to start filling the array at. If start is negative, it is treated as
      * length+start where length is the length of the array.
      * @param end index to stop filling the array at. If end is negative, it is treated as
      * length+end.
      */
    fill(value: T, start?: number, end?: number): T[];
    /**
      * Returns the this object after copying a section of the array identified by start and end
      * to the same array starting at position target
      * @param target If target is negative, it is treated as length+target where length is the
      * length of the array.
      * @param start If start is negative, it is treated as length+start. If end is negative, it
      * is treated as length+end.
      * @param end If not specified, length of the this object is used as its default value.
      */
    copyWithin(target: number, start: number, end?: number): T[];
    /**
      * Returns an array of key, value pairs for every entry in the array
      */
    entries(): IterableIteratorShim<[number, T]>;
    /**
      * Returns an list of keys in the array
      */
    keys(): IterableIteratorShim<number>;
    /**
      * Returns an list of values in the array
      */
    values(): IterableIteratorShim<T>;
    /**
      * Shim for an ES6 iterable. Not intended for direct use by user code.
      */
    "_es6-shim iterator_"(): IterableIteratorShim<T>;
 }
 interface NumberConstructor {
    /**
      * The value of Number.EPSILON is the difference between 1 and the smallest value greater than 1
      * that is representable as a Number value, which is approximately:
      * 2.2204460492503130808472633361816 x 10‍−‍16.
      */
    EPSILON: number;
    /**
      * Returns true if passed value is finite.
      * Unlike the global isFininte, Number.isFinite doesn't forcibly convert the parameter to a
      * number. Only finite values of the type number, result in true.
      * @param number A numeric value.
      */
    isFinite(number: number): boolean;
    /**
      * Returns true if the value passed is an integer, false otherwise.
      * @param number A numeric value.
      */
    isInteger(number: number): boolean;
    /**
      * Returns a Boolean value that indicates whether a value is the reserved value NaN (not a
      * number). Unlike the global isNaN(), Number.isNaN() doesn't forcefully convert the parameter
      * to a number. Only values of the type number, that are also NaN, result in true.
      * @param number A numeric value.
      */
    isNaN(number: number): boolean;
    /**
      * Returns true if the value passed is a safe integer.
      * @param number A numeric value.
      */
    isSafeInteger(number: number): boolean;
    /**
      * The value of the largest integer n such that n and n + 1 are both exactly representable as
      * a Number value.
      * The value of Number.MIN_SAFE_INTEGER is 9007199254740991 2^53 − 1.
      */
    MAX_SAFE_INTEGER: number;
    /**
      * The value of the smallest integer n such that n and n − 1 are both exactly representable as
      * a Number value.
      * The value of Number.MIN_SAFE_INTEGER is −9007199254740991 (−(2^53 − 1)).
      */
    MIN_SAFE_INTEGER: number;
    /**
      * Converts a string to a floating-point number.
      * @param string A string that contains a floating-point number.
      */
    parseFloat(string: string): number;
    /**
      * Converts A string to an integer.
      * @param s A string to convert into a number.
      * @param radix A value between 2 and 36 that specifies the base of the number in numString.
      * If this argument is not supplied, strings with a prefix of '0x' are considered hexadecimal.
      * All other strings are considered decimal.
      */
    parseInt(string: string, radix?: number): number;
 }
 interface ObjectConstructor {
    /**
      * Copy the values of all of the enumerable own properties from one or more source objects to a
      * target object. Returns the target object.
      * @param target The target object to copy to.
      * @param sources One or more source objects to copy properties from.
      */
    assign(target: any, ...sources: any[]): any;
    /**
      * Returns true if the values are the same value, false otherwise.
      * @param value1 The first value.
      * @param value2 The second value.
      */
    is(value1: any, value2: any): boolean;
    /**
      * Sets the prototype of a specified object o to  object proto or null. Returns the object o.
      * @param o The object to change its prototype.
      * @param proto The value of the new prototype or null.
      * @remarks Requires `__proto__` support.
      */
    setPrototypeOf(o: any, proto: any): any;
 }
 interface RegExp {
    /**
      * Returns a string indicating the flags of the regular expression in question. This field is read-only.
      * The characters in this string are sequenced and concatenated in the following order:
      *
      *    - "g" for global
      *    - "i" for ignoreCase
      *    - "m" for multiline
      *    - "u" for unicode
      *    - "y" for sticky
      *
      * If no flags are set, the value is the empty string.
      */
    flags: string;
 }
 interface Math {
    /**
      * Returns the number of leading zero bits in the 32-bit binary representation of a number.
      * @param x A numeric expression.
      */
    clz32(x: number): number;
    /**
      * Returns the result of 32-bit multiplication of two numbers.
      * @param x First number
      * @param y Second number
      */
    imul(x: number, y: number): number;
    /**
      * Returns the sign of the x, indicating whether x is positive, negative or zero.
      * @param x The numeric expression to test
      */
    sign(x: number): number;
    /**
      * Returns the base 10 logarithm of a number.
      * @param x A numeric expression.
      */
    log10(x: number): number;
    /**
      * Returns the base 2 logarithm of a number.
      * @param x A numeric expression.
      */
    log2(x: number): number;
    /**
      * Returns the natural logarithm of 1 + x.
      * @param x A numeric expression.
      */
    log1p(x: number): number;
    /**
      * Returns the result of (e^x - 1) of x (e raised to the power of x, where e is the base of
      * the natural logarithms).
      * @param x A numeric expression.
      */
    expm1(x: number): number;
    /**
      * Returns the hyperbolic cosine of a number.
      * @param x A numeric expression that contains an angle measured in radians.
      */
    cosh(x: number): number;
    /**
      * Returns the hyperbolic sine of a number.
      * @param x A numeric expression that contains an angle measured in radians.
      */
    sinh(x: number): number;
    /**
      * Returns the hyperbolic tangent of a number.
      * @param x A numeric expression that contains an angle measured in radians.
      */
    tanh(x: number): number;
    /**
      * Returns the inverse hyperbolic cosine of a number.
      * @param x A numeric expression that contains an angle measured in radians.
      */
    acosh(x: number): number;
    /**
      * Returns the inverse hyperbolic sine of a number.
      * @param x A numeric expression that contains an angle measured in radians.
      */
    asinh(x: number): number;
    /**
      * Returns the inverse hyperbolic tangent of a number.
      * @param x A numeric expression that contains an angle measured in radians.
      */
    atanh(x: number): number;
    /**
      * Returns the square root of the sum of squares of its arguments.
      * @param values Values to compute the square root for.
      *     If no arguments are passed, the result is +0.
      *     If there is only one argument, the result is the absolute value.
      *     If any argument is +Infinity or -Infinity, the result is +Infinity.
      *     If any argument is NaN, the result is NaN.
      *     If all arguments are either +0 or −0, the result is +0.
      */
    hypot(...values: number[]): number;
    /**
      * Returns the integral part of the a numeric expression, x, removing any fractional digits.
      * If x is already an integer, the result is x.
      * @param x A numeric expression.
      */
    trunc(x: number): number;
    /**
      * Returns the nearest single precision float representation of a number.
      * @param x A numeric expression.
      */
    fround(x: number): number;
    /**
      * Returns an implementation-dependent approximation to the cube root of number.
      * @param x A numeric expression.
      */
    cbrt(x: number): number;
 }
 interface PromiseLike<T> {
    /**
    * Attaches callbacks for the resolution and/or rejection of the Promise.
    * @param onfulfilled The callback to execute when the Promise is resolved.
    * @param onrejected The callback to execute when the Promise is rejected.
    * @returns A Promise for the completion of which ever callback is executed.
    */
    then<TResult>(onfulfilled?: (value: T) => TResult | PromiseLike<TResult>, onrejected?: (reason: any) => TResult | PromiseLike<TResult>): PromiseLike<TResult>;
    then<TResult>(onfulfilled?: (value: T) => TResult | PromiseLike<TResult>, onrejected?: (reason: any) => void): PromiseLike<TResult>;
 }
 /**
 * Represents the completion of an asynchronous operation
 */
 interface Promise<T> {
    /**
    * Attaches callbacks for the resolution and/or rejection of the Promise.
    * @param onfulfilled The callback to execute when the Promise is resolved.
    * @param onrejected The callback to execute when the Promise is rejected.
    * @returns A Promise for the completion of which ever callback is executed.
    */
    then<TResult>(onfulfilled?: (value: T) => TResult | PromiseLike<TResult>, onrejected?: (reason: any) => TResult | PromiseLike<TResult>): Promise<TResult>;
    then<TResult>(onfulfilled?: (value: T) => TResult | PromiseLike<TResult>, onrejected?: (reason: any) => void): Promise<TResult>;
    /**
     * Attaches a callback for only the rejection of the Promise.
     * @param onrejected The callback to execute when the Promise is rejected.
     * @returns A Promise for the completion of the callback.
     */
    catch(onrejected?: (reason: any) => T | PromiseLike<T>): Promise<T>;
    catch(onrejected?: (reason: any) => void): Promise<T>;
 }
 interface PromiseConstructor {
    /**
      * A reference to the prototype.
      */
    prototype: Promise<any>;
    /**
     * Creates a new Promise.
     * @param executor A callback used to initialize the promise. This callback is passed two arguments:
     * a resolve callback used resolve the promise with a value or the result of another promise,
     * and a reject callback used to reject the promise with a provided reason or error.
     */
    new <T>(executor: (resolve: (value?: T | PromiseLike<T>) => void, reject: (reason?: any) => void) => void): Promise<T>;
    /**
     * Creates a Promise that is resolved with an array of results when all of the provided Promises
     * resolve, or rejected when any Promise is rejected.
     * @param values An array of Promises.
     * @returns A new Promise.
     */
    all<T>(values: IterableShim<T | PromiseLike<T>>): Promise<T[]>;
    /**
     * Creates a Promise that is resolved or rejected when any of the provided Promises are resolved
     * or rejected.
     * @param values An array of Promises.
     * @returns A new Promise.
     */
    race<T>(values: IterableShim<T | PromiseLike<T>>): Promise<T>;
    /**
     * Creates a new rejected promise for the provided reason.
     * @param reason The reason the promise was rejected.
     * @returns A new rejected Promise.
     */
    reject(reason: any): Promise<void>;
    /**
     * Creates a new rejected promise for the provided reason.
     * @param reason The reason the promise was rejected.
     * @returns A new rejected Promise.
     */
    reject<T>(reason: any): Promise<T>;
    /**
      * Creates a new resolved promise for the provided value.
      * @param value A promise.
      * @returns A promise whose internal state matches the provided promise.
      */
    resolve<T>(value: T | PromiseLike<T>): Promise<T>;
    /**
     * Creates a new resolved promise .
     * @returns A resolved promise.
     */
    resolve(): Promise<void>;
 }
 declare var Promise: PromiseConstructor;
 interface Map<K, V> {
    clear(): void;
    delete(key: K): boolean;
    forEach(callbackfn: (value: V, index: K, map: Map<K, V>) => void, thisArg?: any): void;
    get(key: K): V;
    has(key: K): boolean;
    set(key: K, value?: V): Map<K, V>;
    size: number;
    entries(): IterableIteratorShim<[K, V]>;
    keys(): IterableIteratorShim<K>;
    values(): IterableIteratorShim<V>;
 }
 interface MapConstructor {
    new <K, V>(): Map<K, V>;
    new <K, V>(iterable: IterableShim<[K, V]>): Map<K, V>;
    prototype: Map<any, any>;
 }
 declare var Map: MapConstructor;
 interface Set<T> {
    add(value: T): Set<T>;
    clear(): void;
    delete(value: T): boolean;
    forEach(callbackfn: (value: T, index: T, set: Set<T>) => void, thisArg?: any): void;
    has(value: T): boolean;
    size: number;
    entries(): IterableIteratorShim<[T, T]>;
    keys(): IterableIteratorShim<T>;
    values(): IterableIteratorShim<T>;
 }
 interface SetConstructor {
    new <T>(): Set<T>;
    new <T>(iterable: IterableShim<T>): Set<T>;
    prototype: Set<any>;
 }
 declare var Set: SetConstructor;
 interface WeakMap<K, V> {
    delete(key: K): boolean;
    get(key: K): V;
    has(key: K): boolean;
    set(key: K, value?: V): WeakMap<K, V>;
 }
 interface WeakMapConstructor {
    new <K, V>(): WeakMap<K, V>;
    new <K, V>(iterable: IterableShim<[K, V]>): WeakMap<K, V>;
    prototype: WeakMap<any, any>;
 }
 declare var WeakMap: WeakMapConstructor;
 interface WeakSet<T> {
    add(value: T): WeakSet<T>;
    delete(value: T): boolean;
    has(value: T): boolean;
 }
 interface WeakSetConstructor {
    new <T>(): WeakSet<T>;
    new <T>(iterable: IterableShim<T>): WeakSet<T>;
    prototype: WeakSet<any>;
 }
 declare var WeakSet: WeakSetConstructor;
 declare namespace Reflect {
    function apply(target: Function, thisArgument: any, argumentsList: ArrayLike<any>): any;
    function construct(target: Function, argumentsList: ArrayLike<any>): any;
    function defineProperty(target: any, propertyKey: PropertyKey, attributes: PropertyDescriptor): boolean;
    function deleteProperty(target: any, propertyKey: PropertyKey): boolean;
    function enumerate(target: any): IterableIteratorShim<any>;
    function get(target: any, propertyKey: PropertyKey, receiver?: any): any;
    function getOwnPropertyDescriptor(target: any, propertyKey: PropertyKey): PropertyDescriptor;
    function getPrototypeOf(target: any): any;
    function has(target: any, propertyKey: PropertyKey): boolean;
    function isExtensible(target: any): boolean;
    function ownKeys(target: any): Array<PropertyKey>;
    function preventExtensions(target: any): boolean;
    function set(target: any, propertyKey: PropertyKey, value: any, receiver?: any): boolean;
    function setPrototypeOf(target: any, proto: any): boolean;
 }
 declare module "es6-shim" {
    var String: StringConstructor;
    var Array: ArrayConstructor;
    var Number: NumberConstructor;
    var Math: Math;
    var Object: ObjectConstructor;
    var Map: MapConstructor;
    var Set: SetConstructor;
    var WeakMap: WeakMapConstructor;
    var WeakSet: WeakSetConstructor;
    var Promise: PromiseConstructor;
    namespace Reflect {
        function apply(target: Function, thisArgument: any, argumentsList: ArrayLike<any>): any;
        function construct(target: Function, argumentsList: ArrayLike<any>): any;
        function defineProperty(target: any, propertyKey: PropertyKey, attributes: PropertyDescriptor): boolean;
        function deleteProperty(target: any, propertyKey: PropertyKey): boolean;
        function enumerate(target: any): Iterator<any>;
        function get(target: any, propertyKey: PropertyKey, receiver?: any): any;
        function getOwnPropertyDescriptor(target: any, propertyKey: PropertyKey): PropertyDescriptor;
        function getPrototypeOf(target: any): any;
        function has(target: any, propertyKey: PropertyKey): boolean;
        function isExtensible(target: any): boolean;
        function ownKeys(target: any): Array<PropertyKey>;
        function preventExtensions(target: any): boolean;
        function set(target: any, propertyKey: PropertyKey, value: any, receiver?: any): boolean;
        function setPrototypeOf(target: any, proto: any): boolean;
    }
 }
--- a/ng1-hosting-ng2/typings/browser/ambient/jasmine/index.d.ts
+++ b/ng1-hosting-ng2/typings/browser/ambient/jasmine/index.d.ts
@ -0,0 +1,500 @@
 // Generated by typings
 // Source: https://raw.githubusercontent.com/DefinitelyTyped/DefinitelyTyped/7de6c3dd94feaeb21f20054b9f30d5dabc5efabd/jasmine/jasmine.d.ts
 // Type definitions for Jasmine 2.2
 // Project: http://jasmine.github.io/
 // Definitions by: Boris Yankov <https://github.com/borisyankov/>, Theodore Brown <https://github.com/theodorejb>, David Pärsson <https://github.com/davidparsson/>
 // Definitions: https://github.com/DefinitelyTyped/DefinitelyTyped
 // For ddescribe / iit use : https://github.com/DefinitelyTyped/DefinitelyTyped/blob/master/karma-jasmine/karma-jasmine.d.ts
 declare function describe(description: string, specDefinitions: () => void): void;
 declare function fdescribe(description: string, specDefinitions: () => void): void;
 declare function xdescribe(description: string, specDefinitions: () => void): void;
 declare function it(expectation: string, assertion?: () => void, timeout?: number): void;
 declare function it(expectation: string, assertion?: (done: () => void) => void, timeout?: number): void;
 declare function fit(expectation: string, assertion?: () => void, timeout?: number): void;
 declare function fit(expectation: string, assertion?: (done: () => void) => void, timeout?: number): void;
 declare function xit(expectation: string, assertion?: () => void, timeout?: number): void;
 declare function xit(expectation: string, assertion?: (done: () => void) => void, timeout?: number): void;
 /** If you call the function pending anywhere in the spec body, no matter the expectations, the spec will be marked pending. */
 declare function pending(reason?: string): void;
 declare function beforeEach(action: () => void, timeout?: number): void;
 declare function beforeEach(action: (done: () => void) => void, timeout?: number): void;
 declare function afterEach(action: () => void, timeout?: number): void;
 declare function afterEach(action: (done: () => void) => void, timeout?: number): void;
 declare function beforeAll(action: () => void, timeout?: number): void;
 declare function beforeAll(action: (done: () => void) => void, timeout?: number): void;
 declare function afterAll(action: () => void, timeout?: number): void;
 declare function afterAll(action: (done: () => void) => void, timeout?: number): void;
 declare function expect(spy: Function): jasmine.Matchers;
 declare function expect(actual: any): jasmine.Matchers;
 declare function fail(e?: any): void;
 declare function spyOn(object: any, method: string): jasmine.Spy;
 declare function runs(asyncMethod: Function): void;
 declare function waitsFor(latchMethod: () => boolean, failureMessage?: string, timeout?: number): void;
 declare function waits(timeout?: number): void;
 declare namespace jasmine {
    var clock: () => Clock;
    function any(aclass: any): Any;
    function anything(): Any;
    function arrayContaining(sample: any[]): ArrayContaining;
    function objectContaining(sample: any): ObjectContaining;
    function createSpy(name: string, originalFn?: Function): Spy;
    function createSpyObj(baseName: string, methodNames: any[]): any;
    function createSpyObj<T>(baseName: string, methodNames: any[]): T;
    function pp(value: any): string;
    function getEnv(): Env;
    function addCustomEqualityTester(equalityTester: CustomEqualityTester): void;
    function addMatchers(matchers: CustomMatcherFactories): void;
    function stringMatching(str: string): Any;
    function stringMatching(str: RegExp): Any;
    interface Any {
        new (expectedClass: any): any;
        jasmineMatches(other: any): boolean;
        jasmineToString(): string;
    }
    // taken from TypeScript lib.core.es6.d.ts, applicable to CustomMatchers.contains()
    interface ArrayLike<T> {
        length: number;
        [n: number]: T;
    }
    interface ArrayContaining {
        new (sample: any[]): any;
        asymmetricMatch(other: any): boolean;
        jasmineToString(): string;
    }
    interface ObjectContaining {
        new (sample: any): any;
        jasmineMatches(other: any, mismatchKeys: any[], mismatchValues: any[]): boolean;
        jasmineToString(): string;
    }
    interface Block {
        new (env: Env, func: SpecFunction, spec: Spec): any;
        execute(onComplete: () => void): void;
    }
    interface WaitsBlock extends Block {
        new (env: Env, timeout: number, spec: Spec): any;
    }
    interface WaitsForBlock extends Block {
        new (env: Env, timeout: number, latchFunction: SpecFunction, message: string, spec: Spec): any;
    }
    interface Clock {
        install(): void;
        uninstall(): void;
        /** Calls to any registered callback are triggered when the clock is ticked forward via the jasmine.clock().tick function, which takes a number of milliseconds. */
        tick(ms: number): void;
        mockDate(date?: Date): void;
    }
    interface CustomEqualityTester {
        (first: any, second: any): boolean;
    }
    interface CustomMatcher {
        compare<T>(actual: T, expected: T): CustomMatcherResult;
        compare(actual: any, expected: any): CustomMatcherResult;
    }
    interface CustomMatcherFactory {
        (util: MatchersUtil, customEqualityTesters: Array<CustomEqualityTester>): CustomMatcher;
    }
    interface CustomMatcherFactories {
        [index: string]: CustomMatcherFactory;
    }
    interface CustomMatcherResult {
        pass: boolean;
        message?: string;
    }
    interface MatchersUtil {
        equals(a: any, b: any, customTesters?: Array<CustomEqualityTester>): boolean;
        contains<T>(haystack: ArrayLike<T> | string, needle: any, customTesters?: Array<CustomEqualityTester>): boolean;
        buildFailureMessage(matcherName: string, isNot: boolean, actual: any, ...expected: Array<any>): string;
    }
    interface Env {
        setTimeout: any;
        clearTimeout: void;
        setInterval: any;
        clearInterval: void;
        updateInterval: number;
        currentSpec: Spec;
        matchersClass: Matchers;
        version(): any;
        versionString(): string;
        nextSpecId(): number;
        addReporter(reporter: Reporter): void;
        execute(): void;
        describe(description: string, specDefinitions: () => void): Suite;
        // ddescribe(description: string, specDefinitions: () => void): Suite; Not a part of jasmine. Angular team adds these
        beforeEach(beforeEachFunction: () => void): void;
        beforeAll(beforeAllFunction: () => void): void;
        currentRunner(): Runner;
        afterEach(afterEachFunction: () => void): void;
        afterAll(afterAllFunction: () => void): void;
        xdescribe(desc: string, specDefinitions: () => void): XSuite;
        it(description: string, func: () => void): Spec;
        // iit(description: string, func: () => void): Spec; Not a part of jasmine. Angular team adds these
        xit(desc: string, func: () => void): XSpec;
        compareRegExps_(a: RegExp, b: RegExp, mismatchKeys: string[], mismatchValues: string[]): boolean;
        compareObjects_(a: any, b: any, mismatchKeys: string[], mismatchValues: string[]): boolean;
        equals_(a: any, b: any, mismatchKeys: string[], mismatchValues: string[]): boolean;
        contains_(haystack: any, needle: any): boolean;
        addCustomEqualityTester(equalityTester: CustomEqualityTester): void;
        addMatchers(matchers: CustomMatcherFactories): void;
        specFilter(spec: Spec): boolean;
    }
    interface FakeTimer {
        new (): any;
        reset(): void;
        tick(millis: number): void;
        runFunctionsWithinRange(oldMillis: number, nowMillis: number): void;
        scheduleFunction(timeoutKey: any, funcToCall: () => void, millis: number, recurring: boolean): void;
    }
    interface HtmlReporter {
        new (): any;
    }
    interface HtmlSpecFilter {
        new (): any;
    }
    interface Result {
        type: string;
    }
    interface NestedResults extends Result {
        description: string;
        totalCount: number;
        passedCount: number;
        failedCount: number;
        skipped: boolean;
        rollupCounts(result: NestedResults): void;
        log(values: any): void;
        getItems(): Result[];
        addResult(result: Result): void;
        passed(): boolean;
    }
    interface MessageResult extends Result  {
        values: any;
        trace: Trace;
    }
    interface ExpectationResult extends Result  {
        matcherName: string;
        passed(): boolean;
        expected: any;
        actual: any;
        message: string;
        trace: Trace;
    }
    interface Trace {
        name: string;
        message: string;
        stack: any;
    }
    interface PrettyPrinter {
        new (): any;
        format(value: any): void;
        iterateObject(obj: any, fn: (property: string, isGetter: boolean) => void): void;
        emitScalar(value: any): void;
        emitString(value: string): void;
        emitArray(array: any[]): void;
        emitObject(obj: any): void;
        append(value: any): void;
    }
    interface StringPrettyPrinter extends PrettyPrinter {
    }
    interface Queue {
        new (env: any): any;
        env: Env;
        ensured: boolean[];
        blocks: Block[];
        running: boolean;
        index: number;
        offset: number;
        abort: boolean;
        addBefore(block: Block, ensure?: boolean): void;
        add(block: any, ensure?: boolean): void;
        insertNext(block: any, ensure?: boolean): void;
        start(onComplete?: () => void): void;
        isRunning(): boolean;
        next_(): void;
        results(): NestedResults;
    }
    interface Matchers {
        new (env: Env, actual: any, spec: Env, isNot?: boolean): any;
        env: Env;
        actual: any;
        spec: Env;
        isNot?: boolean;
        message(): any;
        toBe(expected: any, expectationFailOutput?: any): boolean;
        toEqual(expected: any, expectationFailOutput?: any): boolean;
        toMatch(expected: string | RegExp, expectationFailOutput?: any): boolean;
        toBeDefined(expectationFailOutput?: any): boolean;
        toBeUndefined(expectationFailOutput?: any): boolean;
        toBeNull(expectationFailOutput?: any): boolean;
        toBeNaN(): boolean;
        toBeTruthy(expectationFailOutput?: any): boolean;
        toBeFalsy(expectationFailOutput?: any): boolean;
        toHaveBeenCalled(): boolean;
        toHaveBeenCalledWith(...params: any[]): boolean;
        toHaveBeenCalledTimes(expected: number): boolean;
        toContain(expected: any, expectationFailOutput?: any): boolean;
        toBeLessThan(expected: number, expectationFailOutput?: any): boolean;
        toBeGreaterThan(expected: number, expectationFailOutput?: any): boolean;
        toBeCloseTo(expected: number, precision: any, expectationFailOutput?: any): boolean;
        toThrow(expected?: any): boolean;
        toThrowError(message?: string | RegExp): boolean;
        toThrowError(expected?: new (...args: any[]) => Error, message?: string | RegExp): boolean;
        not: Matchers;
        Any: Any;
    }
    interface Reporter {
        reportRunnerStarting(runner: Runner): void;
        reportRunnerResults(runner: Runner): void;
        reportSuiteResults(suite: Suite): void;
        reportSpecStarting(spec: Spec): void;
        reportSpecResults(spec: Spec): void;
        log(str: string): void;
    }
    interface MultiReporter extends Reporter {
        addReporter(reporter: Reporter): void;
    }
    interface Runner {
        new (env: Env): any;
        execute(): void;
        beforeEach(beforeEachFunction: SpecFunction): void;
        afterEach(afterEachFunction: SpecFunction): void;
        beforeAll(beforeAllFunction: SpecFunction): void;
        afterAll(afterAllFunction: SpecFunction): void;
        finishCallback(): void;
        addSuite(suite: Suite): void;
        add(block: Block): void;
        specs(): Spec[];
        suites(): Suite[];
        topLevelSuites(): Suite[];
        results(): NestedResults;
    }
    interface SpecFunction {
        (spec?: Spec): void;
    }
    interface SuiteOrSpec {
        id: number;
        env: Env;
        description: string;
        queue: Queue;
    }
    interface Spec extends SuiteOrSpec {
        new (env: Env, suite: Suite, description: string): any;
        suite: Suite;
        afterCallbacks: SpecFunction[];
        spies_: Spy[];
        results_: NestedResults;
        matchersClass: Matchers;
        getFullName(): string;
        results(): NestedResults;
        log(arguments: any): any;
        runs(func: SpecFunction): Spec;
        addToQueue(block: Block): void;
        addMatcherResult(result: Result): void;
        expect(actual: any): any;
        waits(timeout: number): Spec;
        waitsFor(latchFunction: SpecFunction, timeoutMessage?: string, timeout?: number): Spec;
        fail(e?: any): void;
        getMatchersClass_(): Matchers;
        addMatchers(matchersPrototype: CustomMatcherFactories): void;
        finishCallback(): void;
        finish(onComplete?: () => void): void;
        after(doAfter: SpecFunction): void;
        execute(onComplete?: () => void): any;
        addBeforesAndAftersToQueue(): void;
        explodes(): void;
        spyOn(obj: any, methodName: string, ignoreMethodDoesntExist: boolean): Spy;
        removeAllSpies(): void;
    }
    interface XSpec {
        id: number;
        runs(): void;
    }
    interface Suite extends SuiteOrSpec {
        new (env: Env, description: string, specDefinitions: () => void, parentSuite: Suite): any;
        parentSuite: Suite;
        getFullName(): string;
        finish(onComplete?: () => void): void;
        beforeEach(beforeEachFunction: SpecFunction): void;
        afterEach(afterEachFunction: SpecFunction): void;
        beforeAll(beforeAllFunction: SpecFunction): void;
        afterAll(afterAllFunction: SpecFunction): void;
        results(): NestedResults;
        add(suiteOrSpec: SuiteOrSpec): void;
        specs(): Spec[];
        suites(): Suite[];
        children(): any[];
        execute(onComplete?: () => void): void;
    }
    interface XSuite {
        execute(): void;
    }
    interface Spy {
        (...params: any[]): any;
        identity: string;
        and: SpyAnd;
        calls: Calls;
        mostRecentCall: { args: any[]; };
        argsForCall: any[];
        wasCalled: boolean;
    }
    interface SpyAnd {
        /** By chaining the spy with and.callThrough, the spy will still track all calls to it but in addition it will delegate to the actual implementation. */
        callThrough(): Spy;
        /** By chaining the spy with and.returnValue, all calls to the function will return a specific value. */
        returnValue(val: any): Spy;
        /** By chaining the spy with and.callFake, all calls to the spy will delegate to the supplied function. */
        callFake(fn: Function): Spy;
        /** By chaining the spy with and.throwError, all calls to the spy will throw the specified value. */
        throwError(msg: string): Spy;
        /** When a calling strategy is used for a spy, the original stubbing behavior can be returned at any time with and.stub. */
        stub(): Spy;
    }
    interface Calls {
        /** By chaining the spy with calls.any(), will return false if the spy has not been called at all, and then true once at least one call happens. **/
        any(): boolean;
        /** By chaining the spy with calls.count(), will return the number of times the spy was called **/
        count(): number;
        /** By chaining the spy with calls.argsFor(), will return the arguments passed to call number index **/
        argsFor(index: number): any[];
        /** By chaining the spy with calls.allArgs(), will return the arguments to all calls **/
        allArgs(): any[];
        /** By chaining the spy with calls.all(), will return the context (the this) and arguments passed all calls **/
        all(): CallInfo[];
        /** By chaining the spy with calls.mostRecent(), will return the context (the this) and arguments for the most recent call **/
        mostRecent(): CallInfo;
        /** By chaining the spy with calls.first(), will return the context (the this) and arguments for the first call **/
        first(): CallInfo;
        /** By chaining the spy with calls.reset(), will clears all tracking for a spy **/
        reset(): void;
    }
    interface CallInfo {
        /** The context (the this) for the call */
        object: any;
        /** All arguments passed to the call */
        args: any[];
        /** The return value of the call */
        returnValue: any;
    }
    interface Util {
        inherit(childClass: Function, parentClass: Function): any;
        formatException(e: any): any;
        htmlEscape(str: string): string;
        argsToArray(args: any): any;
        extend(destination: any, source: any): any;
    }
    interface JsApiReporter extends Reporter {
        started: boolean;
        finished: boolean;
        result: any;
        messages: any;
        new (): any;
        suites(): Suite[];
        summarize_(suiteOrSpec: SuiteOrSpec): any;
        results(): any;
        resultsForSpec(specId: any): any;
        log(str: any): any;
        resultsForSpecs(specIds: any): any;
        summarizeResult_(result: any): any;
    }
    interface Jasmine {
        Spec: Spec;
        clock: Clock;
        util: Util;
    }
    export var HtmlReporter: HtmlReporter;
    export var HtmlSpecFilter: HtmlSpecFilter;
    export var DEFAULT_TIMEOUT_INTERVAL: number;
 }
--- a/ng1-hosting-ng2/typings/main.d.ts
+++ b/ng1-hosting-ng2/typings/main.d.ts
@ -0,0 +1,2 @@
 /// <reference path="main/ambient/es6-shim/index.d.ts" />
 /// <reference path="main/ambient/jasmine/index.d.ts" />
--- a/ng1-hosting-ng2/typings/main/ambient/es6-shim/index.d.ts
+++ b/ng1-hosting-ng2/typings/main/ambient/es6-shim/index.d.ts
@ -0,0 +1,670 @@
 // Generated by typings
 // Source: https://raw.githubusercontent.com/DefinitelyTyped/DefinitelyTyped/7de6c3dd94feaeb21f20054b9f30d5dabc5efabd/es6-shim/es6-shim.d.ts
 // Type definitions for es6-shim v0.31.2
 // Project: https://github.com/paulmillr/es6-shim
 // Definitions by: Ron Buckton <http://github.com/rbuckton>
 // Definitions: https://github.com/DefinitelyTyped/DefinitelyTyped
 declare type PropertyKey = string | number | symbol;
 interface IteratorResult<T> {
    done: boolean;
    value?: T;
 }
 interface IterableShim<T> {
    /**
      * Shim for an ES6 iterable. Not intended for direct use by user code.
      */
    "_es6-shim iterator_"(): Iterator<T>;
 }
 interface Iterator<T> {
    next(value?: any): IteratorResult<T>;
    return?(value?: any): IteratorResult<T>;
    throw?(e?: any): IteratorResult<T>;
 }
 interface IterableIteratorShim<T> extends IterableShim<T>, Iterator<T> {
    /**
      * Shim for an ES6 iterable iterator. Not intended for direct use by user code.
      */
    "_es6-shim iterator_"(): IterableIteratorShim<T>;
 }
 interface StringConstructor {
    /**
      * Return the String value whose elements are, in order, the elements in the List elements.
      * If length is 0, the empty string is returned.
      */
    fromCodePoint(...codePoints: number[]): string;
    /**
      * String.raw is intended for use as a tag function of a Tagged Template String. When called
      * as such the first argument will be a well formed template call site object and the rest
      * parameter will contain the substitution values.
      * @param template A well-formed template string call site representation.
      * @param substitutions A set of substitution values.
      */
    raw(template: TemplateStringsArray, ...substitutions: any[]): string;
 }
 interface String {
    /**
      * Returns a nonnegative integer Number less than 1114112 (0x110000) that is the code point
      * value of the UTF-16 encoded code point starting at the string element at position pos in
      * the String resulting from converting this object to a String.
      * If there is no element at that position, the result is undefined.
      * If a valid UTF-16 surrogate pair does not begin at pos, the result is the code unit at pos.
      */
    codePointAt(pos: number): number;
    /**
      * Returns true if searchString appears as a substring of the result of converting this
      * object to a String, at one or more positions that are
      * greater than or equal to position; otherwise, returns false.
      * @param searchString search string
      * @param position If position is undefined, 0 is assumed, so as to search all of the String.
      */
    includes(searchString: string, position?: number): boolean;
    /**
      * Returns true if the sequence of elements of searchString converted to a String is the
      * same as the corresponding elements of this object (converted to a String) starting at
      * endPosition – length(this). Otherwise returns false.
      */
    endsWith(searchString: string, endPosition?: number): boolean;
    /**
      * Returns a String value that is made from count copies appended together. If count is 0,
      * T is the empty String is returned.
      * @param count number of copies to append
      */
    repeat(count: number): string;
    /**
      * Returns true if the sequence of elements of searchString converted to a String is the
      * same as the corresponding elements of this object (converted to a String) starting at
      * position. Otherwise returns false.
      */
    startsWith(searchString: string, position?: number): boolean;
    /**
      * Returns an <a> HTML anchor element and sets the name attribute to the text value
      * @param name
      */
    anchor(name: string): string;
    /** Returns a <big> HTML element */
    big(): string;
    /** Returns a <blink> HTML element */
    blink(): string;
    /** Returns a <b> HTML element */
    bold(): string;
    /** Returns a <tt> HTML element */
    fixed(): string
    /** Returns a <font> HTML element and sets the color attribute value */
    fontcolor(color: string): string
    /** Returns a <font> HTML element and sets the size attribute value */
    fontsize(size: number): string;
    /** Returns a <font> HTML element and sets the size attribute value */
    fontsize(size: string): string;
    /** Returns an <i> HTML element */
    italics(): string;
    /** Returns an <a> HTML element and sets the href attribute value */
    link(url: string): string;
    /** Returns a <small> HTML element */
    small(): string;
    /** Returns a <strike> HTML element */
    strike(): string;
    /** Returns a <sub> HTML element */
    sub(): string;
    /** Returns a <sup> HTML element */
    sup(): string;
    /**
      * Shim for an ES6 iterable. Not intended for direct use by user code.
      */
    "_es6-shim iterator_"(): IterableIteratorShim<string>;
 }
 interface ArrayConstructor {
    /**
      * Creates an array from an array-like object.
      * @param arrayLike An array-like object to convert to an array.
      * @param mapfn A mapping function to call on every element of the array.
      * @param thisArg Value of 'this' used to invoke the mapfn.
      */
    from<T, U>(arrayLike: ArrayLike<T>, mapfn: (v: T, k: number) => U, thisArg?: any): Array<U>;
    /**
      * Creates an array from an iterable object.
      * @param iterable An iterable object to convert to an array.
      * @param mapfn A mapping function to call on every element of the array.
      * @param thisArg Value of 'this' used to invoke the mapfn.
      */
    from<T, U>(iterable: IterableShim<T>, mapfn: (v: T, k: number) => U, thisArg?: any): Array<U>;
    /**
      * Creates an array from an array-like object.
      * @param arrayLike An array-like object to convert to an array.
      */
    from<T>(arrayLike: ArrayLike<T>): Array<T>;
    /**
      * Creates an array from an iterable object.
      * @param iterable An iterable object to convert to an array.
      */
    from<T>(iterable: IterableShim<T>): Array<T>;
    /**
      * Returns a new array from a set of elements.
      * @param items A set of elements to include in the new array object.
      */
    of<T>(...items: T[]): Array<T>;
 }
 interface Array<T> {
    /**
      * Returns the value of the first element in the array where predicate is true, and undefined
      * otherwise.
      * @param predicate find calls predicate once for each element of the array, in ascending
      * order, until it finds one where predicate returns true. If such an element is found, find
      * immediately returns that element value. Otherwise, find returns undefined.
      * @param thisArg If provided, it will be used as the this value for each invocation of
      * predicate. If it is not provided, undefined is used instead.
      */
    find(predicate: (value: T, index: number, obj: Array<T>) => boolean, thisArg?: any): T;
    /**
      * Returns the index of the first element in the array where predicate is true, and undefined
      * otherwise.
      * @param predicate find calls predicate once for each element of the array, in ascending
      * order, until it finds one where predicate returns true. If such an element is found, find
      * immediately returns that element value. Otherwise, find returns undefined.
      * @param thisArg If provided, it will be used as the this value for each invocation of
      * predicate. If it is not provided, undefined is used instead.
      */
    findIndex(predicate: (value: T) => boolean, thisArg?: any): number;
    /**
      * Returns the this object after filling the section identified by start and end with value
      * @param value value to fill array section with
      * @param start index to start filling the array at. If start is negative, it is treated as
      * length+start where length is the length of the array.
      * @param end index to stop filling the array at. If end is negative, it is treated as
      * length+end.
      */
    fill(value: T, start?: number, end?: number): T[];
    /**
      * Returns the this object after copying a section of the array identified by start and end
      * to the same array starting at position target
      * @param target If target is negative, it is treated as length+target where length is the
      * length of the array.
      * @param start If start is negative, it is treated as length+start. If end is negative, it
      * is treated as length+end.
      * @param end If not specified, length of the this object is used as its default value.
      */
    copyWithin(target: number, start: number, end?: number): T[];
    /**
      * Returns an array of key, value pairs for every entry in the array
      */
    entries(): IterableIteratorShim<[number, T]>;
    /**
      * Returns an list of keys in the array
      */
    keys(): IterableIteratorShim<number>;
    /**
      * Returns an list of values in the array
      */
    values(): IterableIteratorShim<T>;
    /**
      * Shim for an ES6 iterable. Not intended for direct use by user code.
      */
    "_es6-shim iterator_"(): IterableIteratorShim<T>;
 }
 interface NumberConstructor {
    /**
      * The value of Number.EPSILON is the difference between 1 and the smallest value greater than 1
      * that is representable as a Number value, which is approximately:
      * 2.2204460492503130808472633361816 x 10‍−‍16.
      */
    EPSILON: number;
    /**
      * Returns true if passed value is finite.
      * Unlike the global isFininte, Number.isFinite doesn't forcibly convert the parameter to a
      * number. Only finite values of the type number, result in true.
      * @param number A numeric value.
      */
    isFinite(number: number): boolean;
    /**
      * Returns true if the value passed is an integer, false otherwise.
      * @param number A numeric value.
      */
    isInteger(number: number): boolean;
    /**
      * Returns a Boolean value that indicates whether a value is the reserved value NaN (not a
      * number). Unlike the global isNaN(), Number.isNaN() doesn't forcefully convert the parameter
      * to a number. Only values of the type number, that are also NaN, result in true.
      * @param number A numeric value.
      */
    isNaN(number: number): boolean;
    /**
      * Returns true if the value passed is a safe integer.
      * @param number A numeric value.
      */
    isSafeInteger(number: number): boolean;
    /**
      * The value of the largest integer n such that n and n + 1 are both exactly representable as
      * a Number value.
      * The value of Number.MIN_SAFE_INTEGER is 9007199254740991 2^53 − 1.
      */
    MAX_SAFE_INTEGER: number;
    /**
      * The value of the smallest integer n such that n and n − 1 are both exactly representable as
      * a Number value.
      * The value of Number.MIN_SAFE_INTEGER is −9007199254740991 (−(2^53 − 1)).
      */
    MIN_SAFE_INTEGER: number;
    /**
      * Converts a string to a floating-point number.
      * @param string A string that contains a floating-point number.
      */
    parseFloat(string: string): number;
    /**
      * Converts A string to an integer.
      * @param s A string to convert into a number.
      * @param radix A value between 2 and 36 that specifies the base of the number in numString.
      * If this argument is not supplied, strings with a prefix of '0x' are considered hexadecimal.
      * All other strings are considered decimal.
      */
    parseInt(string: string, radix?: number): number;
 }
 interface ObjectConstructor {
    /**
      * Copy the values of all of the enumerable own properties from one or more source objects to a
      * target object. Returns the target object.
      * @param target The target object to copy to.
      * @param sources One or more source objects to copy properties from.
      */
    assign(target: any, ...sources: any[]): any;
    /**
      * Returns true if the values are the same value, false otherwise.
      * @param value1 The first value.
      * @param value2 The second value.
      */
    is(value1: any, value2: any): boolean;
    /**
      * Sets the prototype of a specified object o to  object proto or null. Returns the object o.
      * @param o The object to change its prototype.
      * @param proto The value of the new prototype or null.
      * @remarks Requires `__proto__` support.
      */
    setPrototypeOf(o: any, proto: any): any;
 }
 interface RegExp {
    /**
      * Returns a string indicating the flags of the regular expression in question. This field is read-only.
      * The characters in this string are sequenced and concatenated in the following order:
      *
      *    - "g" for global
      *    - "i" for ignoreCase
      *    - "m" for multiline
      *    - "u" for unicode
      *    - "y" for sticky
      *
      * If no flags are set, the value is the empty string.
      */
    flags: string;
 }
 interface Math {
    /**
      * Returns the number of leading zero bits in the 32-bit binary representation of a number.
      * @param x A numeric expression.
      */
    clz32(x: number): number;
    /**
      * Returns the result of 32-bit multiplication of two numbers.
      * @param x First number
      * @param y Second number
      */
    imul(x: number, y: number): number;
    /**
      * Returns the sign of the x, indicating whether x is positive, negative or zero.
      * @param x The numeric expression to test
      */
    sign(x: number): number;
    /**
      * Returns the base 10 logarithm of a number.
      * @param x A numeric expression.
      */
    log10(x: number): number;
    /**
      * Returns the base 2 logarithm of a number.
      * @param x A numeric expression.
      */
    log2(x: number): number;
    /**
      * Returns the natural logarithm of 1 + x.
      * @param x A numeric expression.
      */
    log1p(x: number): number;
    /**
      * Returns the result of (e^x - 1) of x (e raised to the power of x, where e is the base of
      * the natural logarithms).
      * @param x A numeric expression.
      */
    expm1(x: number): number;
    /**
      * Returns the hyperbolic cosine of a number.
      * @param x A numeric expression that contains an angle measured in radians.
      */
    cosh(x: number): number;
    /**
      * Returns the hyperbolic sine of a number.
      * @param x A numeric expression that contains an angle measured in radians.
      */
    sinh(x: number): number;
    /**
      * Returns the hyperbolic tangent of a number.
      * @param x A numeric expression that contains an angle measured in radians.
      */
    tanh(x: number): number;
    /**
      * Returns the inverse hyperbolic cosine of a number.
      * @param x A numeric expression that contains an angle measured in radians.
      */
    acosh(x: number): number;
    /**
      * Returns the inverse hyperbolic sine of a number.
      * @param x A numeric expression that contains an angle measured in radians.
      */
    asinh(x: number): number;
    /**
      * Returns the inverse hyperbolic tangent of a number.
      * @param x A numeric expression that contains an angle measured in radians.
      */
    atanh(x: number): number;
    /**
      * Returns the square root of the sum of squares of its arguments.
      * @param values Values to compute the square root for.
      *     If no arguments are passed, the result is +0.
      *     If there is only one argument, the result is the absolute value.
      *     If any argument is +Infinity or -Infinity, the result is +Infinity.
      *     If any argument is NaN, the result is NaN.
      *     If all arguments are either +0 or −0, the result is +0.
      */
    hypot(...values: number[]): number;
    /**
      * Returns the integral part of the a numeric expression, x, removing any fractional digits.
      * If x is already an integer, the result is x.
      * @param x A numeric expression.
      */
    trunc(x: number): number;
    /**
      * Returns the nearest single precision float representation of a number.
      * @param x A numeric expression.
      */
    fround(x: number): number;
    /**
      * Returns an implementation-dependent approximation to the cube root of number.
      * @param x A numeric expression.
      */
    cbrt(x: number): number;
 }
 interface PromiseLike<T> {
    /**
    * Attaches callbacks for the resolution and/or rejection of the Promise.
    * @param onfulfilled The callback to execute when the Promise is resolved.
    * @param onrejected The callback to execute when the Promise is rejected.
    * @returns A Promise for the completion of which ever callback is executed.
    */
    then<TResult>(onfulfilled?: (value: T) => TResult | PromiseLike<TResult>, onrejected?: (reason: any) => TResult | PromiseLike<TResult>): PromiseLike<TResult>;
    then<TResult>(onfulfilled?: (value: T) => TResult | PromiseLike<TResult>, onrejected?: (reason: any) => void): PromiseLike<TResult>;
 }
 /**
 * Represents the completion of an asynchronous operation
 */
 interface Promise<T> {
    /**
    * Attaches callbacks for the resolution and/or rejection of the Promise.
    * @param onfulfilled The callback to execute when the Promise is resolved.
    * @param onrejected The callback to execute when the Promise is rejected.
    * @returns A Promise for the completion of which ever callback is executed.
    */
    then<TResult>(onfulfilled?: (value: T) => TResult | PromiseLike<TResult>, onrejected?: (reason: any) => TResult | PromiseLike<TResult>): Promise<TResult>;
    then<TResult>(onfulfilled?: (value: T) => TResult | PromiseLike<TResult>, onrejected?: (reason: any) => void): Promise<TResult>;
    /**
     * Attaches a callback for only the rejection of the Promise.
     * @param onrejected The callback to execute when the Promise is rejected.
     * @returns A Promise for the completion of the callback.
     */
    catch(onrejected?: (reason: any) => T | PromiseLike<T>): Promise<T>;
    catch(onrejected?: (reason: any) => void): Promise<T>;
 }
 interface PromiseConstructor {
    /**
      * A reference to the prototype.
      */
    prototype: Promise<any>;
    /**
     * Creates a new Promise.
     * @param executor A callback used to initialize the promise. This callback is passed two arguments:
     * a resolve callback used resolve the promise with a value or the result of another promise,
     * and a reject callback used to reject the promise with a provided reason or error.
     */
    new <T>(executor: (resolve: (value?: T | PromiseLike<T>) => void, reject: (reason?: any) => void) => void): Promise<T>;
    /**
     * Creates a Promise that is resolved with an array of results when all of the provided Promises
     * resolve, or rejected when any Promise is rejected.
     * @param values An array of Promises.
     * @returns A new Promise.
     */
    all<T>(values: IterableShim<T | PromiseLike<T>>): Promise<T[]>;
    /**
     * Creates a Promise that is resolved or rejected when any of the provided Promises are resolved
     * or rejected.
     * @param values An array of Promises.
     * @returns A new Promise.
     */
    race<T>(values: IterableShim<T | PromiseLike<T>>): Promise<T>;
    /**
     * Creates a new rejected promise for the provided reason.
     * @param reason The reason the promise was rejected.
     * @returns A new rejected Promise.
     */
    reject(reason: any): Promise<void>;
    /**
     * Creates a new rejected promise for the provided reason.
     * @param reason The reason the promise was rejected.
     * @returns A new rejected Promise.
     */
    reject<T>(reason: any): Promise<T>;
    /**
      * Creates a new resolved promise for the provided value.
      * @param value A promise.
      * @returns A promise whose internal state matches the provided promise.
      */
    resolve<T>(value: T | PromiseLike<T>): Promise<T>;
    /**
     * Creates a new resolved promise .
     * @returns A resolved promise.
     */
    resolve(): Promise<void>;
 }
 declare var Promise: PromiseConstructor;
 interface Map<K, V> {
    clear(): void;
    delete(key: K): boolean;
    forEach(callbackfn: (value: V, index: K, map: Map<K, V>) => void, thisArg?: any): void;
    get(key: K): V;
    has(key: K): boolean;
    set(key: K, value?: V): Map<K, V>;
    size: number;
    entries(): IterableIteratorShim<[K, V]>;
    keys(): IterableIteratorShim<K>;
    values(): IterableIteratorShim<V>;
 }
 interface MapConstructor {
    new <K, V>(): Map<K, V>;
    new <K, V>(iterable: IterableShim<[K, V]>): Map<K, V>;
    prototype: Map<any, any>;
 }
 declare var Map: MapConstructor;
 interface Set<T> {
    add(value: T): Set<T>;
    clear(): void;
    delete(value: T): boolean;
    forEach(callbackfn: (value: T, index: T, set: Set<T>) => void, thisArg?: any): void;
    has(value: T): boolean;
    size: number;
    entries(): IterableIteratorShim<[T, T]>;
    keys(): IterableIteratorShim<T>;
    values(): IterableIteratorShim<T>;
 }
 interface SetConstructor {
    new <T>(): Set<T>;
    new <T>(iterable: IterableShim<T>): Set<T>;
    prototype: Set<any>;
 }
 declare var Set: SetConstructor;
 interface WeakMap<K, V> {
    delete(key: K): boolean;
    get(key: K): V;
    has(key: K): boolean;
    set(key: K, value?: V): WeakMap<K, V>;
 }
 interface WeakMapConstructor {
    new <K, V>(): WeakMap<K, V>;
    new <K, V>(iterable: IterableShim<[K, V]>): WeakMap<K, V>;
    prototype: WeakMap<any, any>;
 }
 declare var WeakMap: WeakMapConstructor;
 interface WeakSet<T> {
    add(value: T): WeakSet<T>;
    delete(value: T): boolean;
    has(value: T): boolean;
 }
 interface WeakSetConstructor {
    new <T>(): WeakSet<T>;
    new <T>(iterable: IterableShim<T>): WeakSet<T>;
    prototype: WeakSet<any>;
 }
 declare var WeakSet: WeakSetConstructor;
 declare namespace Reflect {
    function apply(target: Function, thisArgument: any, argumentsList: ArrayLike<any>): any;
    function construct(target: Function, argumentsList: ArrayLike<any>): any;
    function defineProperty(target: any, propertyKey: PropertyKey, attributes: PropertyDescriptor): boolean;
    function deleteProperty(target: any, propertyKey: PropertyKey): boolean;
    function enumerate(target: any): IterableIteratorShim<any>;
    function get(target: any, propertyKey: PropertyKey, receiver?: any): any;
    function getOwnPropertyDescriptor(target: any, propertyKey: PropertyKey): PropertyDescriptor;
    function getPrototypeOf(target: any): any;
    function has(target: any, propertyKey: PropertyKey): boolean;
    function isExtensible(target: any): boolean;
    function ownKeys(target: any): Array<PropertyKey>;
    function preventExtensions(target: any): boolean;
    function set(target: any, propertyKey: PropertyKey, value: any, receiver?: any): boolean;
    function setPrototypeOf(target: any, proto: any): boolean;
 }
 declare module "es6-shim" {
    var String: StringConstructor;
    var Array: ArrayConstructor;
    var Number: NumberConstructor;
    var Math: Math;
    var Object: ObjectConstructor;
    var Map: MapConstructor;
    var Set: SetConstructor;
    var WeakMap: WeakMapConstructor;
    var WeakSet: WeakSetConstructor;
    var Promise: PromiseConstructor;
    namespace Reflect {
        function apply(target: Function, thisArgument: any, argumentsList: ArrayLike<any>): any;
        function construct(target: Function, argumentsList: ArrayLike<any>): any;
        function defineProperty(target: any, propertyKey: PropertyKey, attributes: PropertyDescriptor): boolean;
        function deleteProperty(target: any, propertyKey: PropertyKey): boolean;
        function enumerate(target: any): Iterator<any>;
        function get(target: any, propertyKey: PropertyKey, receiver?: any): any;
        function getOwnPropertyDescriptor(target: any, propertyKey: PropertyKey): PropertyDescriptor;
        function getPrototypeOf(target: any): any;
        function has(target: any, propertyKey: PropertyKey): boolean;
        function isExtensible(target: any): boolean;
        function ownKeys(target: any): Array<PropertyKey>;
        function preventExtensions(target: any): boolean;
        function set(target: any, propertyKey: PropertyKey, value: any, receiver?: any): boolean;
        function setPrototypeOf(target: any, proto: any): boolean;
    }
 }
--- a/ng1-hosting-ng2/typings/main/ambient/jasmine/index.d.ts
+++ b/ng1-hosting-ng2/typings/main/ambient/jasmine/index.d.ts
@ -0,0 +1,500 @@
 // Generated by typings
 // Source: https://raw.githubusercontent.com/DefinitelyTyped/DefinitelyTyped/7de6c3dd94feaeb21f20054b9f30d5dabc5efabd/jasmine/jasmine.d.ts
 // Type definitions for Jasmine 2.2
 // Project: http://jasmine.github.io/
 // Definitions by: Boris Yankov <https://github.com/borisyankov/>, Theodore Brown <https://github.com/theodorejb>, David Pärsson <https://github.com/davidparsson/>
 // Definitions: https://github.com/DefinitelyTyped/DefinitelyTyped
 // For ddescribe / iit use : https://github.com/DefinitelyTyped/DefinitelyTyped/blob/master/karma-jasmine/karma-jasmine.d.ts
 declare function describe(description: string, specDefinitions: () => void): void;
 declare function fdescribe(description: string, specDefinitions: () => void): void;
 declare function xdescribe(description: string, specDefinitions: () => void): void;
 declare function it(expectation: string, assertion?: () => void, timeout?: number): void;
 declare function it(expectation: string, assertion?: (done: () => void) => void, timeout?: number): void;
 declare function fit(expectation: string, assertion?: () => void, timeout?: number): void;
 declare function fit(expectation: string, assertion?: (done: () => void) => void, timeout?: number): void;
 declare function xit(expectation: string, assertion?: () => void, timeout?: number): void;
 declare function xit(expectation: string, assertion?: (done: () => void) => void, timeout?: number): void;
 /** If you call the function pending anywhere in the spec body, no matter the expectations, the spec will be marked pending. */
 declare function pending(reason?: string): void;
 declare function beforeEach(action: () => void, timeout?: number): void;
 declare function beforeEach(action: (done: () => void) => void, timeout?: number): void;
 declare function afterEach(action: () => void, timeout?: number): void;
 declare function afterEach(action: (done: () => void) => void, timeout?: number): void;
 declare function beforeAll(action: () => void, timeout?: number): void;
 declare function beforeAll(action: (done: () => void) => void, timeout?: number): void;
 declare function afterAll(action: () => void, timeout?: number): void;
 declare function afterAll(action: (done: () => void) => void, timeout?: number): void;
 declare function expect(spy: Function): jasmine.Matchers;
 declare function expect(actual: any): jasmine.Matchers;
 declare function fail(e?: any): void;
 declare function spyOn(object: any, method: string): jasmine.Spy;
 declare function runs(asyncMethod: Function): void;
 declare function waitsFor(latchMethod: () => boolean, failureMessage?: string, timeout?: number): void;
 declare function waits(timeout?: number): void;
 declare namespace jasmine {
    var clock: () => Clock;
    function any(aclass: any): Any;
    function anything(): Any;
    function arrayContaining(sample: any[]): ArrayContaining;
    function objectContaining(sample: any): ObjectContaining;
    function createSpy(name: string, originalFn?: Function): Spy;
    function createSpyObj(baseName: string, methodNames: any[]): any;
    function createSpyObj<T>(baseName: string, methodNames: any[]): T;
    function pp(value: any): string;
    function getEnv(): Env;
    function addCustomEqualityTester(equalityTester: CustomEqualityTester): void;
    function addMatchers(matchers: CustomMatcherFactories): void;
    function stringMatching(str: string): Any;
    function stringMatching(str: RegExp): Any;
    interface Any {
        new (expectedClass: any): any;
        jasmineMatches(other: any): boolean;
        jasmineToString(): string;
    }
    // taken from TypeScript lib.core.es6.d.ts, applicable to CustomMatchers.contains()
    interface ArrayLike<T> {
        length: number;
        [n: number]: T;
    }
    interface ArrayContaining {
        new (sample: any[]): any;
        asymmetricMatch(other: any): boolean;
        jasmineToString(): string;
    }
    interface ObjectContaining {
        new (sample: any): any;
        jasmineMatches(other: any, mismatchKeys: any[], mismatchValues: any[]): boolean;
        jasmineToString(): string;
    }
    interface Block {
        new (env: Env, func: SpecFunction, spec: Spec): any;
        execute(onComplete: () => void): void;
    }
    interface WaitsBlock extends Block {
        new (env: Env, timeout: number, spec: Spec): any;
    }
    interface WaitsForBlock extends Block {
        new (env: Env, timeout: number, latchFunction: SpecFunction, message: string, spec: Spec): any;
    }
    interface Clock {
        install(): void;
        uninstall(): void;
        /** Calls to any registered callback are triggered when the clock is ticked forward via the jasmine.clock().tick function, which takes a number of milliseconds. */
        tick(ms: number): void;
        mockDate(date?: Date): void;
    }
    interface CustomEqualityTester {
        (first: any, second: any): boolean;
    }
    interface CustomMatcher {
        compare<T>(actual: T, expected: T): CustomMatcherResult;
        compare(actual: any, expected: any): CustomMatcherResult;
    }
    interface CustomMatcherFactory {
        (util: MatchersUtil, customEqualityTesters: Array<CustomEqualityTester>): CustomMatcher;
    }
    interface CustomMatcherFactories {
        [index: string]: CustomMatcherFactory;
    }
    interface CustomMatcherResult {
        pass: boolean;
        message?: string;
    }
    interface MatchersUtil {
        equals(a: any, b: any, customTesters?: Array<CustomEqualityTester>): boolean;
        contains<T>(haystack: ArrayLike<T> | string, needle: any, customTesters?: Array<CustomEqualityTester>): boolean;
        buildFailureMessage(matcherName: string, isNot: boolean, actual: any, ...expected: Array<any>): string;
    }
    interface Env {
        setTimeout: any;
        clearTimeout: void;
        setInterval: any;
        clearInterval: void;
        updateInterval: number;
        currentSpec: Spec;
        matchersClass: Matchers;
        version(): any;
        versionString(): string;
        nextSpecId(): number;
        addReporter(reporter: Reporter): void;
        execute(): void;
        describe(description: string, specDefinitions: () => void): Suite;
        // ddescribe(description: string, specDefinitions: () => void): Suite; Not a part of jasmine. Angular team adds these
        beforeEach(beforeEachFunction: () => void): void;
        beforeAll(beforeAllFunction: () => void): void;
        currentRunner(): Runner;
        afterEach(afterEachFunction: () => void): void;
        afterAll(afterAllFunction: () => void): void;
        xdescribe(desc: string, specDefinitions: () => void): XSuite;
        it(description: string, func: () => void): Spec;
        // iit(description: string, func: () => void): Spec; Not a part of jasmine. Angular team adds these
        xit(desc: string, func: () => void): XSpec;
        compareRegExps_(a: RegExp, b: RegExp, mismatchKeys: string[], mismatchValues: string[]): boolean;
        compareObjects_(a: any, b: any, mismatchKeys: string[], mismatchValues: string[]): boolean;
        equals_(a: any, b: any, mismatchKeys: string[], mismatchValues: string[]): boolean;
        contains_(haystack: any, needle: any): boolean;
        addCustomEqualityTester(equalityTester: CustomEqualityTester): void;
        addMatchers(matchers: CustomMatcherFactories): void;
        specFilter(spec: Spec): boolean;
    }
    interface FakeTimer {
        new (): any;
        reset(): void;
        tick(millis: number): void;
        runFunctionsWithinRange(oldMillis: number, nowMillis: number): void;
        scheduleFunction(timeoutKey: any, funcToCall: () => void, millis: number, recurring: boolean): void;
    }
    interface HtmlReporter {
        new (): any;
    }
    interface HtmlSpecFilter {
        new (): any;
    }
    interface Result {
        type: string;
    }
    interface NestedResults extends Result {
        description: string;
        totalCount: number;
        passedCount: number;
        failedCount: number;
        skipped: boolean;
        rollupCounts(result: NestedResults): void;
        log(values: any): void;
        getItems(): Result[];
        addResult(result: Result): void;
        passed(): boolean;
    }
    interface MessageResult extends Result  {
        values: any;
        trace: Trace;
    }
    interface ExpectationResult extends Result  {
        matcherName: string;
        passed(): boolean;
        expected: any;
        actual: any;
        message: string;
        trace: Trace;
    }
    interface Trace {
        name: string;
        message: string;
        stack: any;
    }
    interface PrettyPrinter {
        new (): any;
        format(value: any): void;
        iterateObject(obj: any, fn: (property: string, isGetter: boolean) => void): void;
        emitScalar(value: any): void;
        emitString(value: string): void;
        emitArray(array: any[]): void;
        emitObject(obj: any): void;
        append(value: any): void;
    }
    interface StringPrettyPrinter extends PrettyPrinter {
    }
    interface Queue {
        new (env: any): any;
        env: Env;
        ensured: boolean[];
        blocks: Block[];
        running: boolean;
        index: number;
        offset: number;
        abort: boolean;
        addBefore(block: Block, ensure?: boolean): void;
        add(block: any, ensure?: boolean): void;
        insertNext(block: any, ensure?: boolean): void;
        start(onComplete?: () => void): void;
        isRunning(): boolean;
        next_(): void;
        results(): NestedResults;
    }
    interface Matchers {
        new (env: Env, actual: any, spec: Env, isNot?: boolean): any;
        env: Env;
        actual: any;
        spec: Env;
        isNot?: boolean;
        message(): any;
        toBe(expected: any, expectationFailOutput?: any): boolean;
        toEqual(expected: any, expectationFailOutput?: any): boolean;
        toMatch(expected: string | RegExp, expectationFailOutput?: any): boolean;
        toBeDefined(expectationFailOutput?: any): boolean;
        toBeUndefined(expectationFailOutput?: any): boolean;
        toBeNull(expectationFailOutput?: any): boolean;
        toBeNaN(): boolean;
        toBeTruthy(expectationFailOutput?: any): boolean;
        toBeFalsy(expectationFailOutput?: any): boolean;
        toHaveBeenCalled(): boolean;
        toHaveBeenCalledWith(...params: any[]): boolean;
        toHaveBeenCalledTimes(expected: number): boolean;
        toContain(expected: any, expectationFailOutput?: any): boolean;
        toBeLessThan(expected: number, expectationFailOutput?: any): boolean;
        toBeGreaterThan(expected: number, expectationFailOutput?: any): boolean;
        toBeCloseTo(expected: number, precision: any, expectationFailOutput?: any): boolean;
        toThrow(expected?: any): boolean;
        toThrowError(message?: string | RegExp): boolean;
        toThrowError(expected?: new (...args: any[]) => Error, message?: string | RegExp): boolean;
        not: Matchers;
        Any: Any;
    }
    interface Reporter {
        reportRunnerStarting(runner: Runner): void;
        reportRunnerResults(runner: Runner): void;
        reportSuiteResults(suite: Suite): void;
        reportSpecStarting(spec: Spec): void;
        reportSpecResults(spec: Spec): void;
        log(str: string): void;
    }
    interface MultiReporter extends Reporter {
        addReporter(reporter: Reporter): void;
    }
    interface Runner {
        new (env: Env): any;
        execute(): void;
        beforeEach(beforeEachFunction: SpecFunction): void;
        afterEach(afterEachFunction: SpecFunction): void;
        beforeAll(beforeAllFunction: SpecFunction): void;
        afterAll(afterAllFunction: SpecFunction): void;
        finishCallback(): void;
        addSuite(suite: Suite): void;
        add(block: Block): void;
        specs(): Spec[];
        suites(): Suite[];
        topLevelSuites(): Suite[];
        results(): NestedResults;
    }
    interface SpecFunction {
        (spec?: Spec): void;
    }
    interface SuiteOrSpec {
        id: number;
        env: Env;
        description: string;
        queue: Queue;
    }
    interface Spec extends SuiteOrSpec {
        new (env: Env, suite: Suite, description: string): any;
        suite: Suite;
        afterCallbacks: SpecFunction[];
        spies_: Spy[];
        results_: NestedResults;
        matchersClass: Matchers;
        getFullName(): string;
        results(): NestedResults;
        log(arguments: any): any;
        runs(func: SpecFunction): Spec;
        addToQueue(block: Block): void;
        addMatcherResult(result: Result): void;
        expect(actual: any): any;
        waits(timeout: number): Spec;
        waitsFor(latchFunction: SpecFunction, timeoutMessage?: string, timeout?: number): Spec;
        fail(e?: any): void;
        getMatchersClass_(): Matchers;
        addMatchers(matchersPrototype: CustomMatcherFactories): void;
        finishCallback(): void;
        finish(onComplete?: () => void): void;
        after(doAfter: SpecFunction): void;
        execute(onComplete?: () => void): any;
        addBeforesAndAftersToQueue(): void;
        explodes(): void;
        spyOn(obj: any, methodName: string, ignoreMethodDoesntExist: boolean): Spy;
        removeAllSpies(): void;
    }
    interface XSpec {
        id: number;
        runs(): void;
    }
    interface Suite extends SuiteOrSpec {
        new (env: Env, description: string, specDefinitions: () => void, parentSuite: Suite): any;
        parentSuite: Suite;
        getFullName(): string;
        finish(onComplete?: () => void): void;
        beforeEach(beforeEachFunction: SpecFunction): void;
        afterEach(afterEachFunction: SpecFunction): void;
        beforeAll(beforeAllFunction: SpecFunction): void;
        afterAll(afterAllFunction: SpecFunction): void;
        results(): NestedResults;
        add(suiteOrSpec: SuiteOrSpec): void;
        specs(): Spec[];
        suites(): Suite[];
        children(): any[];
        execute(onComplete?: () => void): void;
    }
    interface XSuite {
        execute(): void;
    }
    interface Spy {
        (...params: any[]): any;
        identity: string;
        and: SpyAnd;
        calls: Calls;
        mostRecentCall: { args: any[]; };
        argsForCall: any[];
        wasCalled: boolean;
    }
    interface SpyAnd {
        /** By chaining the spy with and.callThrough, the spy will still track all calls to it but in addition it will delegate to the actual implementation. */
        callThrough(): Spy;
        /** By chaining the spy with and.returnValue, all calls to the function will return a specific value. */
        returnValue(val: any): Spy;
        /** By chaining the spy with and.callFake, all calls to the spy will delegate to the supplied function. */
        callFake(fn: Function): Spy;
        /** By chaining the spy with and.throwError, all calls to the spy will throw the specified value. */
        throwError(msg: string): Spy;
        /** When a calling strategy is used for a spy, the original stubbing behavior can be returned at any time with and.stub. */
        stub(): Spy;
    }
    interface Calls {
        /** By chaining the spy with calls.any(), will return false if the spy has not been called at all, and then true once at least one call happens. **/
        any(): boolean;
        /** By chaining the spy with calls.count(), will return the number of times the spy was called **/
        count(): number;
        /** By chaining the spy with calls.argsFor(), will return the arguments passed to call number index **/
        argsFor(index: number): any[];
        /** By chaining the spy with calls.allArgs(), will return the arguments to all calls **/
        allArgs(): any[];
        /** By chaining the spy with calls.all(), will return the context (the this) and arguments passed all calls **/
        all(): CallInfo[];
        /** By chaining the spy with calls.mostRecent(), will return the context (the this) and arguments for the most recent call **/
        mostRecent(): CallInfo;
        /** By chaining the spy with calls.first(), will return the context (the this) and arguments for the first call **/
        first(): CallInfo;
        /** By chaining the spy with calls.reset(), will clears all tracking for a spy **/
        reset(): void;
    }
    interface CallInfo {
        /** The context (the this) for the call */
        object: any;
        /** All arguments passed to the call */
        args: any[];
        /** The return value of the call */
        returnValue: any;
    }
    interface Util {
        inherit(childClass: Function, parentClass: Function): any;
        formatException(e: any): any;
        htmlEscape(str: string): string;
        argsToArray(args: any): any;
        extend(destination: any, source: any): any;
    }
    interface JsApiReporter extends Reporter {
        started: boolean;
        finished: boolean;
        result: any;
        messages: any;
        new (): any;
        suites(): Suite[];
        summarize_(suiteOrSpec: SuiteOrSpec): any;
        results(): any;
        resultsForSpec(specId: any): any;
        log(str: any): any;
        resultsForSpecs(specIds: any): any;
        summarizeResult_(result: any): any;
    }
    interface Jasmine {
        Spec: Spec;
        clock: Clock;
        util: Util;
    }
    export var HtmlReporter: HtmlReporter;
    export var HtmlSpecFilter: HtmlSpecFilter;
    export var DEFAULT_TIMEOUT_INTERVAL: number;
 }
		`@ -0,0 +1 @@`
							`{"version":3,"file":"app.component.js","sourceRoot":"","sources":["app.component.ts"],"names":[],"mappings":";;;;;;;;;;;;;;;;;;;;;;;YAkBA;gBAAA;gBAA4B,CAAC;gBAf7B;oBAAC,gBAAS,CAAC;wBACP,QAAQ,EAAE,QAAQ;wBAClB,QAAQ,EAAE,wQAUT;wBACD,UAAU,EAAE,CAAC,WAAI,EAAE,UAAG,CAAC;qBAC1B,CAAC;;gCAAA;gBAC0B,mBAAC;YAAD,CAAC,AAA7B,IAA6B;YAA7B,uCAA6B,CAAA"}`
		`@ -0,0 +1 @@`
							`{"version":3,"file":"navbar.component.js","sourceRoot":"","sources":["navbar.component.ts"],"names":[],"mappings":";;;;;;;;;;;;;;;;;;;;YAYA;gBAAA;gBAEA,CAAC;gBAZD;oBAAC,gBAAS,CAAC;wBACP,QAAQ,EAAE,YAAY;wBACtB,QAAQ,EAAE,oMAMT;qBACJ,CAAC;;6BAAA;gBAGF,gBAAC;YAAD,CAAC,AAFD,IAEC;YAFD,iCAEC,CAAA"}`
		`@ -0,0 +1 @@`
							{"version":3,"file":"tabs.js","sourceRoot":"","sources":["tabs.ts"],"names":[],"mappings":";;;;;;;;;;;;;;;;;;;;YAaA;gBAAA;oBACI,SAAI,GAAU,EAAE,CAAC;gBAkBrB,CAAC;gBAhBG,wBAAS,GAAT,UAAU,GAAO,EAAE,MAAM;oBACrB,IAAI,CAAC,IAAI,CAAC,OAAO,CAAC,UAAA,GAAG;wBACjB,GAAG,CAAC,MAAM,GAAG,KAAK,CAAC;oBACvB,CAAC,CAAC,CAAC;oBACH,GAAG,CAAC,MAAM,GAAG,IAAI,CAAC;oBAClB,EAAE,CAAC,CAAC,MAAM,CAAC,CAAC,CAAC;wBACT,MAAM,CAAC,cAAc,EAAE,CAAC;oBAC5B,CAAC;gBACL,CAAC;gBAED,qBAAM,GAAN,UAAO,GAAO;oBACV,EAAE,CAAC,CAAC,IAAI,CAAC,IAAI,CAAC,MAAM,KAAK,CAAC,CAAC,CAAC,CAAC;wBACzB,GAAG,CAAC,MAAM,GAAG,IAAI,CAAC;oBACtB,CAAC;oBACD,IAAI,CAAC,IAAI,CAAC,IAAI,CAAC,GAAG,CAAC,CAAC;gBACxB,CAAC;gBA7BL;oBAAC,gBAAS,CAAC;wBACP,QAAQ,EAAE,MAAM;wBAChB,QAAQ,EAAE,8QAOT;qBACJ,CAAC;;wBAAA;gBAoBF,WAAC;YAAD,CAAC,AAnBD,IAmBC;YAnBD,uBAmBC,CAAA;YAWD;gBAII,aAAY,IAAU;oBAClB,IAAI,CAAC,MAAM,CAAC,IAAI,CAAC,CAAC;gBACtB,CAAC;gBALD;oBAAC,YAAK,CAAC,UAAU,CAAC;;kDAAA;gBATtB;oBAAC,gBAAS,CAAC;wBACP,QAAQ,EAAE,KAAK;wBACf,QAAQ,EAAE,mGAIT;qBACJ,CAAC;;uBAAA;gBAQF,UAAC;YAAD,CAAC,AAPD,IAOC;YAPD,qBAOC,CAAA"}
		`@ -0,0 +1 @@`
							`{"version":3,"file":"main.js","sourceRoot":"","sources":["main.ts"],"names":[],"mappings":"AAAA;;;;;EAKE;;;;;QAMI,cAAc;;;;;;;;;;;;;YAAd,cAAc,GAAG,IAAI,wBAAc,EAAE,CAAC;YAG5C,OAAO,CAAC,MAAM,CAAC,OAAO,CAAC;iBAClB,SAAS,CAAC,OAAO,EAAE,cAAc,CAAC,qBAAqB,CAAC,4BAAY,CAAC,CAAC;iBACtE,SAAS,CAAC,WAAW,EAAE,cAAc,CAAC,qBAAqB,CAAC,4BAAS,CAAC,CAAC,CAC3E;YACD,cAAc,CAAC,SAAS,CAAC,QAAQ,CAAC,IAAI,EAAE,CAAC,OAAO,CAAC,EAAE,EAAC,QAAQ,EAAE,IAAI,EAAC,CAAC,CAAC"}`
		`@ -0,0 +1,3 @@`
							`<p>This is the partial for view 1.</p>`

							`<h3>Top navigation bar is an Angular 2 component with Angular 1 link buttons</h3>`
		`@ -0,0 +1,2 @@`
							`/// <reference path="browser/ambient/es6-shim/index.d.ts" />`
							`/// <reference path="browser/ambient/jasmine/index.d.ts" />`
		`@ -0,0 +1,2 @@`
							`/// <reference path="main/ambient/es6-shim/index.d.ts" />`
							`/// <reference path="main/ambient/jasmine/index.d.ts" />`