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angular-cn/modules/@angular/router/test/recognize_spec.ts

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TypeScript
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import {
AsyncTestCompleter,
beforeEach,
ddescribe,
xdescribe,
describe,
expect,
iit,
inject,
beforeEachProviders,
it,
xit
} from '@angular/core/testing/testing_internal';
import {recognize} from '../src/recognize';
import {Routes, Route} from '@angular/router';
import {provide, Component, ComponentResolver} from '@angular/core';
import {UrlSegment, RouteTree, UrlTree, createEmptyRouteTree} from '../src/segments';
import {DefaultRouterUrlSerializer} from '../src/router_url_serializer';
import {DEFAULT_OUTLET_NAME} from '../src/constants';
export function main() {
describe('recognize', () => {
let emptyRouteTree = createEmptyRouteTree(ComponentA);
it('should handle position args',
inject([AsyncTestCompleter, ComponentResolver], (async, resolver) => {
recognize(resolver, ComponentA, tree("b/paramB/c/paramC/d"), emptyRouteTree)
.then(r => {
let a = r.root;
expect(stringifyUrl(a.urlSegments)).toEqual([""]);
expect(a.type).toBe(ComponentA);
let b = r.firstChild(r.root);
expect(stringifyUrl(b.urlSegments)).toEqual(["b", "paramB"]);
expect(b.type).toBe(ComponentB);
let c = r.firstChild(r.firstChild(r.root));
expect(stringifyUrl(c.urlSegments)).toEqual(["c", "paramC"]);
expect(c.type).toBe(ComponentC);
let d = r.firstChild(r.firstChild(r.firstChild(r.root)));
expect(stringifyUrl(d.urlSegments)).toEqual(["d"]);
expect(d.type).toBe(ComponentD);
async.done();
});
}));
it('should support empty routes',
inject([AsyncTestCompleter, ComponentResolver], (async, resolver) => {
recognize(resolver, ComponentA, tree("f"), emptyRouteTree)
.then(r => {
let a = r.root;
expect(stringifyUrl(a.urlSegments)).toEqual([""]);
expect(a.type).toBe(ComponentA);
let f = r.firstChild(r.root);
expect(stringifyUrl(f.urlSegments)).toEqual(["f"]);
expect(f.type).toBe(ComponentF);
let d = r.firstChild(r.firstChild(r.root));
expect(stringifyUrl(d.urlSegments)).toEqual([]);
expect(d.type).toBe(ComponentD);
async.done();
});
}));
it('should handle aux routes',
inject([AsyncTestCompleter, ComponentResolver], (async, resolver) => {
recognize(resolver, ComponentA, tree("b/paramB(/d//right:d)"), emptyRouteTree)
.then(r => {
let c = r.children(r.root);
expect(stringifyUrl(c[0].urlSegments)).toEqual(["b", "paramB"]);
expect(c[0].outlet).toEqual(DEFAULT_OUTLET_NAME);
expect(c[0].type).toBe(ComponentB);
expect(stringifyUrl(c[1].urlSegments)).toEqual(["d"]);
expect(c[1].outlet).toEqual("aux");
expect(c[1].type).toBe(ComponentD);
expect(stringifyUrl(c[2].urlSegments)).toEqual(["d"]);
expect(c[2].outlet).toEqual("right");
expect(c[2].type).toBe(ComponentD);
async.done();
});
}));
it("should error when two segments with the same outlet name",
inject([AsyncTestCompleter, ComponentResolver], (async, resolver) => {
recognize(resolver, ComponentA, tree("b/paramB(right:d//right:e)"), emptyRouteTree)
.catch(e => {
expect(e.message).toEqual(
"Two segments cannot have the same outlet name: 'right:d' and 'right:e'.");
async.done();
});
}));
it('should handle nested aux routes',
inject([AsyncTestCompleter, ComponentResolver], (async, resolver) => {
recognize(resolver, ComponentA, tree("b/paramB(/d(right:e))"), emptyRouteTree)
.then(r => {
let c = r.children(r.root);
expect(stringifyUrl(c[0].urlSegments)).toEqual(["b", "paramB"]);
expect(c[0].outlet).toEqual(DEFAULT_OUTLET_NAME);
expect(c[0].type).toBe(ComponentB);
expect(stringifyUrl(c[1].urlSegments)).toEqual(["d"]);
expect(c[1].outlet).toEqual("aux");
expect(c[1].type).toBe(ComponentD);
expect(stringifyUrl(c[2].urlSegments)).toEqual(["e"]);
expect(c[2].outlet).toEqual("right");
expect(c[2].type).toBe(ComponentE);
async.done();
});
}));
it('should handle non top-level aux routes',
inject([AsyncTestCompleter, ComponentResolver], (async, resolver) => {
recognize(resolver, ComponentA, tree('b/paramB/d(e)'), emptyRouteTree)
.then(r => {
let c = r.children(r.firstChild(r.root));
expect(stringifyUrl(c[0].urlSegments)).toEqual(["d"]);
expect(c[0].outlet).toEqual(DEFAULT_OUTLET_NAME);
expect(c[0].type).toBe(ComponentD);
expect(stringifyUrl(c[1].urlSegments)).toEqual(["e"]);
expect(c[1].outlet).toEqual("aux");
expect(c[1].type).toBe(ComponentE);
async.done();
});
}));
it('should handle matrix parameters',
inject([AsyncTestCompleter, ComponentResolver], (async, resolver) => {
recognize(resolver, ComponentA, tree("b/paramB;b1=1;b2=2(/d;d1=1;d2=2)"), emptyRouteTree)
.then(r => {
let c = r.children(r.root);
expect(c[0].parameters).toEqual({'b': 'paramB', 'b1': '1', 'b2': '2'});
expect(c[1].parameters).toEqual({'d1': '1', 'd2': '2'});
async.done();
});
}));
it('should match a wildcard',
inject([AsyncTestCompleter, ComponentResolver], (async, resolver) => {
recognize(resolver, ComponentG, tree("a;aa=1/b;bb=2"), emptyRouteTree)
.then(r => {
let c = r.children(r.root);
expect(c.length).toEqual(1);
expect(stringifyUrl(c[0].urlSegments)).toEqual([]);
expect(c[0].parameters).toEqual(null);
async.done();
});
}));
it('should error when no matching routes',
inject([AsyncTestCompleter, ComponentResolver], (async, resolver) => {
recognize(resolver, ComponentA, tree("invalid"), emptyRouteTree)
.catch(e => {
expect(e.message).toContain("Cannot match any routes");
async.done();
});
}));
it('should handle no matching routes (too short)',
inject([AsyncTestCompleter, ComponentResolver], (async, resolver) => {
recognize(resolver, ComponentA, tree("b"), emptyRouteTree)
.catch(e => {
expect(e.message).toContain("Cannot match any routes");
async.done();
});
}));
it("should error when a component doesn't have @Routes",
inject([AsyncTestCompleter, ComponentResolver], (async, resolver) => {
recognize(resolver, ComponentA, tree("d/invalid"), emptyRouteTree)
.catch(e => {
expect(e.message)
.toEqual("Component 'ComponentD' does not have route configuration");
async.done();
});
}));
it("should reuse existing segments",
inject([AsyncTestCompleter, ComponentResolver], (async, resolver) => {
recognize(resolver, ComponentA, tree("/b/1/d"), emptyRouteTree)
.then(t1 => {
recognize(resolver, ComponentA, tree("/b/1/e"), t1)
.then(t2 => {
expect(t1.root).toBe(t2.root);
expect(t1.firstChild(t1.root)).toBe(t2.firstChild(t2.root));
expect(t1.firstChild(t1.firstChild(t1.root)))
.not.toBe(t2.firstChild(t2.firstChild(t2.root)));
async.done();
});
});
}));
});
}
function tree(url: string): UrlTree {
return new DefaultRouterUrlSerializer().parse(url);
}
function stringifyUrl(segments: UrlSegment[]): string[] {
return segments.map(s => s.segment);
}
@Component({selector: 'd', template: 't'})
class ComponentD {
}
@Component({selector: 'e', template: 't'})
class ComponentE {
}
@Component({selector: 'f', template: 't'})
@Routes([new Route({path: "/", component: ComponentD})])
class ComponentF {
}
@Component({selector: 'c', template: 't'})
@Routes([new Route({path: "d", component: ComponentD})])
class ComponentC {
}
@Component({selector: 'b', template: 't'})
@Routes([
new Route({path: "d", component: ComponentD}),
new Route({path: "e", component: ComponentE}),
new Route({path: "c/:c", component: ComponentC})
])
class ComponentB {
}
@Component({selector: 'g', template: 't'})
@Routes(
[new Route({path: "d", component: ComponentD}), new Route({path: "*", component: ComponentE})])
class ComponentG {
}
@Component({selector: 'a', template: 't'})
@Routes([
new Route({path: "b/:b", component: ComponentB}),
new Route({path: "d", component: ComponentD}),
new Route({path: "e", component: ComponentE}),
new Route({path: "f", component: ComponentF})
])
class ComponentA {
}
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