angular-cn/modules/angular2/test/change_detection/change_detection_spec.js

932 lines
31 KiB
JavaScript

import {ddescribe, describe, it, iit, xit, expect, beforeEach, afterEach, IS_DARTIUM} from 'angular2/test_lib';
import {isPresent, isBlank, isJsObject, BaseException, FunctionWrapper} from 'angular2/src/facade/lang';
import {List, ListWrapper, MapWrapper, StringMapWrapper} from 'angular2/src/facade/collection';
import {Parser} from 'angular2/src/change_detection/parser/parser';
import {Lexer} from 'angular2/src/change_detection/parser/lexer';
import {Locals} from 'angular2/src/change_detection/parser/locals';
import {ChangeDispatcher, DynamicChangeDetector, ChangeDetectionError, BindingRecord, DirectiveRecord,
PipeRegistry, Pipe, NO_CHANGE, CHECK_ALWAYS, CHECK_ONCE, CHECKED, DETACHED, ON_PUSH, DEFAULT} from 'angular2/change_detection';
import {JitProtoChangeDetector, DynamicProtoChangeDetector} from 'angular2/src/change_detection/proto_change_detector';
export function main() {
describe("change detection", () => {
StringMapWrapper.forEach(
{ "dynamic": (registry = null, strategy = null) => new DynamicProtoChangeDetector(registry, strategy),
"JIT": (registry = null, strategy = null) => new JitProtoChangeDetector(registry, strategy)
}, (createProtoChangeDetector, name) => {
if (name == "JIT" && IS_DARTIUM) return;
function ast(exp:string, location:string = 'location') {
var parser = new Parser(new Lexer());
return parser.parseBinding(exp, location);
}
function dirs(directives:List) {
return new FakeDirectives(directives, []);
}
function convertLocalsToVariableBindings(locals) {
var variableBindings = [];
var loc = locals;
while(isPresent(loc)) {
MapWrapper.forEach(loc.current, (v, k) => ListWrapper.push(variableBindings, k));
loc = loc.parent;
}
return variableBindings;
}
function createChangeDetector(propName:string, exp:string, context = null, locals = null, registry = null) {
var pcd = createProtoChangeDetector(registry);
var dispatcher = new TestDispatcher();
var variableBindings = convertLocalsToVariableBindings(locals);
var records = [BindingRecord.createForElement(ast(exp), 0, propName)];
var cd = pcd.instantiate(dispatcher, records, variableBindings, []);
cd.hydrate(context, locals, null);
return {"changeDetector" : cd, "dispatcher" : dispatcher};
}
function executeWatch(memo:string, exp:string, context = null, locals = null) {
var res = createChangeDetector(memo, exp, context, locals);
res["changeDetector"].detectChanges();
return res["dispatcher"].log;
}
function instantiate(protoChangeDetector, dispatcher, bindings, directiveRecords = null) {
if (isBlank(directiveRecords)) directiveRecords = [];
return protoChangeDetector.instantiate(dispatcher, bindings, null, directiveRecords);
}
describe(`${name} change detection`, () => {
var dispatcher;
beforeEach(() => {
dispatcher = new TestDispatcher();
});
it('should do simple watching', () => {
var person = new Person("misko");
var c = createChangeDetector('name', 'name', person);
var cd = c["changeDetector"];
var dispatcher = c["dispatcher"];
cd.detectChanges();
expect(dispatcher.log).toEqual(['name=misko']);
dispatcher.clear();
cd.detectChanges();
expect(dispatcher.log).toEqual([]);
dispatcher.clear();
person.name = "Misko";
cd.detectChanges();
expect(dispatcher.log).toEqual(['name=Misko']);
});
it('should report all changes on the first run including uninitialized values', () => {
expect(executeWatch('value', 'value', new Uninitialized())).toEqual(['value=null']);
});
it('should report all changes on the first run including null values', () => {
var td = new TestData(null);
expect(executeWatch('a', 'a', td)).toEqual(['a=null']);
});
it("should support literals", () => {
expect(executeWatch('const', '10')).toEqual(['const=10']);
expect(executeWatch('const', '"str"')).toEqual(['const=str']);
expect(executeWatch('const', '"a\n\nb"')).toEqual(['const=a\n\nb']);
});
it('simple chained property access', () => {
var address = new Address('Grenoble');
var person = new Person('Victor', address);
expect(executeWatch('address.city', 'address.city', person))
.toEqual(['address.city=Grenoble']);
});
it("should support method calls", () => {
var person = new Person('Victor');
expect(executeWatch('m', 'sayHi("Jim")', person)).toEqual(['m=Hi, Jim']);
});
it("should support function calls", () => {
var td = new TestData(() => (a) => a);
expect(executeWatch('value', 'a()(99)', td)).toEqual(['value=99']);
});
it("should support chained method calls", () => {
var person = new Person('Victor');
var td = new TestData(person);
expect(executeWatch('m', 'a.sayHi("Jim")', td)).toEqual(['m=Hi, Jim']);
});
it("should support literal array", () => {
var c = createChangeDetector('array', '[1,2]');
c["changeDetector"].detectChanges();
expect(c["dispatcher"].loggedValues).toEqual([[1, 2]]);
c = createChangeDetector('array', '[1,a]', new TestData(2));
c["changeDetector"].detectChanges();
expect(c["dispatcher"].loggedValues).toEqual([[1, 2]]);
});
it("should support literal maps", () => {
var c = createChangeDetector('map', '{z:1}');
c["changeDetector"].detectChanges();
expect(c["dispatcher"].loggedValues[0]['z']).toEqual(1);
c = createChangeDetector('map', '{z:a}', new TestData(1));
c["changeDetector"].detectChanges();
expect(c["dispatcher"].loggedValues[0]['z']).toEqual(1);
});
it("should support binary operations", () => {
expect(executeWatch('exp', '10 + 2')).toEqual(['exp=12']);
expect(executeWatch('exp', '10 - 2')).toEqual(['exp=8']);
expect(executeWatch('exp', '10 * 2')).toEqual(['exp=20']);
expect(executeWatch('exp', '10 / 2')).toEqual([`exp=${5.0}`]); //dart exp=5.0, js exp=5
expect(executeWatch('exp', '11 % 2')).toEqual(['exp=1']);
expect(executeWatch('exp', '1 == 1')).toEqual(['exp=true']);
expect(executeWatch('exp', '1 != 1')).toEqual(['exp=false']);
expect(executeWatch('exp', '1 < 2')).toEqual(['exp=true']);
expect(executeWatch('exp', '2 < 1')).toEqual(['exp=false']);
expect(executeWatch('exp', '2 > 1')).toEqual(['exp=true']);
expect(executeWatch('exp', '2 < 1')).toEqual(['exp=false']);
expect(executeWatch('exp', '1 <= 2')).toEqual(['exp=true']);
expect(executeWatch('exp', '2 <= 2')).toEqual(['exp=true']);
expect(executeWatch('exp', '2 <= 1')).toEqual(['exp=false']);
expect(executeWatch('exp', '2 >= 1')).toEqual(['exp=true']);
expect(executeWatch('exp', '2 >= 2')).toEqual(['exp=true']);
expect(executeWatch('exp', '1 >= 2')).toEqual(['exp=false']);
expect(executeWatch('exp', 'true && true')).toEqual(['exp=true']);
expect(executeWatch('exp', 'true && false')).toEqual(['exp=false']);
expect(executeWatch('exp', 'true || false')).toEqual(['exp=true']);
expect(executeWatch('exp', 'false || false')).toEqual(['exp=false']);
});
it("should support negate", () => {
expect(executeWatch('exp', '!true')).toEqual(['exp=false']);
expect(executeWatch('exp', '!!true')).toEqual(['exp=true']);
});
it("should support conditionals", () => {
expect(executeWatch('m', '1 < 2 ? 1 : 2')).toEqual(['m=1']);
expect(executeWatch('m', '1 > 2 ? 1 : 2')).toEqual(['m=2']);
});
describe("keyed access", () => {
it("should support accessing a list item", () => {
expect(executeWatch('array[0]', '["foo", "bar"][0]')).toEqual(['array[0]=foo']);
});
it("should support accessing a map item", () => {
expect(executeWatch('map[foo]', '{"foo": "bar"}["foo"]')).toEqual(['map[foo]=bar']);
});
});
it("should support interpolation", () => {
var parser = new Parser(new Lexer());
var pcd = createProtoChangeDetector();
var ast = parser.parseInterpolation("B{{a}}A", "location");
var cd = instantiate(pcd, dispatcher, [BindingRecord.createForElement(ast, 0, "memo")]);
cd.hydrate(new TestData("value"), null, null);
cd.detectChanges();
expect(dispatcher.log).toEqual(["memo=BvalueA"]);
});
describe("change notification", () => {
describe("simple checks", () => {
it("should pass a change record to the dispatcher", () => {
var person = new Person('bob');
var c = createChangeDetector('name', 'name', person);
var cd = c["changeDetector"];
var dispatcher = c["dispatcher"];
cd.detectChanges();
expect(dispatcher.loggedValues).toEqual(['bob']);
});
});
describe("pipes", () => {
it("should pass a change record to the dispatcher", () => {
var registry = new FakePipeRegistry('pipe', () => new CountingPipe());
var person = new Person('bob');
var c = createChangeDetector('name', 'name | pipe', person, null, registry);
var cd = c["changeDetector"];
var dispatcher = c["dispatcher"];
cd.detectChanges();
expect(dispatcher.loggedValues).toEqual(['bob state:0']);
});
});
describe("updating directives", () => {
var dirRecord1 = new DirectiveRecord(0, 0, true, true, DEFAULT);
var dirRecord2 = new DirectiveRecord(0, 1, true, true, DEFAULT);
var dirRecordNoCallbacks = new DirectiveRecord(0, 0, false, false, DEFAULT);
function updateA(exp:string, dirRecord) {
return BindingRecord.createForDirective(ast(exp), "a", (o,v) => o.a = v, dirRecord);
}
function updateB(exp:string, dirRecord) {
return BindingRecord.createForDirective(ast(exp), "b", (o,v) => o.b = v, dirRecord);
}
var directive1;
var directive2;
beforeEach(() => {
directive1 = new TestDirective();
directive2 = new TestDirective();
});
it("should happen directly, without invoking the dispatcher", () => {
var pcd = createProtoChangeDetector();
var cd = instantiate(pcd, dispatcher, [updateA("42", dirRecord1)],
[dirRecord1]);
cd.hydrate(null, null, dirs([directive1]));
cd.detectChanges();
expect(dispatcher.loggedValues).toEqual([]);
expect(directive1.a).toEqual(42);
});
describe("onChange", () => {
it("should notify the directive when a group of records changes", () => {
var pcd = createProtoChangeDetector();
var cd = instantiate(pcd, dispatcher, [
updateA("1", dirRecord1),
updateB("2", dirRecord1),
updateA("3", dirRecord2)
], [dirRecord1, dirRecord2]);
cd.hydrate(null, null, dirs([directive1, directive2]));
cd.detectChanges();
expect(directive1.changes).toEqual({'a': 1, 'b': 2});
expect(directive2.changes).toEqual({'a': 3});
});
it("should not call onChange when callOnChange is false", () => {
var pcd = createProtoChangeDetector();
var cd = instantiate(pcd, dispatcher, [
updateA("1", dirRecordNoCallbacks)
], [dirRecordNoCallbacks]);
cd.hydrate(null, null, dirs([directive1]));
cd.detectChanges();
expect(directive1.changes).toEqual(null);
});
});
describe("onAllChangesDone", () => {
it("should be called after processing all the children", () => {
var pcd = createProtoChangeDetector();
var cd = instantiate(pcd, dispatcher, [], [dirRecord1, dirRecord2]);
cd.hydrate(null, null, dirs([directive1, directive2]));
cd.detectChanges();
expect(directive1.onChangesDoneCalled).toBe(true);
expect(directive2.onChangesDoneCalled).toBe(true);
});
it("should not be called when onAllChangesDone is false", () => {
var pcd = createProtoChangeDetector();
var cd = instantiate(pcd, dispatcher, [
updateA("1", dirRecordNoCallbacks)
], [dirRecordNoCallbacks]);
cd.hydrate(null, null, dirs([directive1]));
cd.detectChanges();
expect(directive1.onChangesDoneCalled).toEqual(false);
});
it("should be called in reverse order so the child is always notified before the parent", () => {
var pcd = createProtoChangeDetector();
var cd = instantiate(pcd, dispatcher, [], [dirRecord1, dirRecord2]);
var onChangesDoneCalls = [];
var td1;
td1 = new TestDirective(() => ListWrapper.push(onChangesDoneCalls, td1));
var td2;
td2 = new TestDirective(() => ListWrapper.push(onChangesDoneCalls, td2));
cd.hydrate(null, null, dirs([td1, td2]));
cd.detectChanges();
expect(onChangesDoneCalls).toEqual([td2, td1]);
});
it("should be called before processing shadow dom children", () => {
var pcd = createProtoChangeDetector();
var shadowDomChildPCD = createProtoChangeDetector();
var parent = pcd.instantiate(dispatcher, [], null, [dirRecord1]);
var child = shadowDomChildPCD.instantiate(dispatcher,
[updateA("1", dirRecord1)], null, [dirRecord1]);
parent.addShadowDomChild(child);
var directiveInShadowDom = new TestDirective();
var parentDirective = new TestDirective(() => {
expect(directiveInShadowDom.a).toBe(null);
});
parent.hydrate(null, null, dirs([parentDirective]));
child.hydrate(null, null, dirs([directiveInShadowDom]));
parent.detectChanges();
});
});
});
});
describe("enforce no new changes", () => {
it("should throw when a record gets changed after it has been checked", () => {
var pcd = createProtoChangeDetector();
var dispatcher = new TestDispatcher();
var cd = instantiate(pcd, dispatcher, [
BindingRecord.createForElement(ast("a"), 0, "a")
]);
cd.hydrate(new TestData('value'), null, null);
expect(() => {
cd.checkNoChanges();
}).toThrowError(new RegExp("Expression 'a in location' has changed after it was checked"));
});
});
//TODO vsavkin: implement it
describe("error handling", () => {
xit("should wrap exceptions into ChangeDetectionError", () => {
var pcd = createProtoChangeDetector();
var cd = pcd.instantiate(new TestDispatcher(), [
BindingRecord.createForElement(ast("invalidProp"), 0, "a")
], null, []);
cd.hydrate(null, null);
try {
cd.detectChanges();
throw new BaseException("fail");
} catch (e) {
expect(e).toBeAnInstanceOf(ChangeDetectionError);
expect(e.location).toEqual("invalidProp in someComponent");
}
});
});
describe("Locals", () => {
it('should read a value from locals', () => {
var locals = new Locals(null,
MapWrapper.createFromPairs([["key", "value"]]));
expect(executeWatch('key', 'key', null, locals))
.toEqual(['key=value']);
});
it('should invoke a function from local', () => {
var locals = new Locals(null,
MapWrapper.createFromPairs([["key", () => "value"]]));
expect(executeWatch('key', 'key()', null, locals))
.toEqual(['key=value']);
});
it('should handle nested locals', () => {
var nested = new Locals(null,
MapWrapper.createFromPairs([["key", "value"]]));
var locals = new Locals(nested, MapWrapper.create());
expect(executeWatch('key', 'key', null, locals))
.toEqual(['key=value']);
});
it("should fall back to a regular field read when the locals map" +
"does not have the requested field", () => {
var locals = new Locals(null,
MapWrapper.createFromPairs([["key", "value"]]));
expect(executeWatch('name', 'name', new Person("Jim"), locals))
.toEqual(['name=Jim']);
});
});
describe("handle children", () => {
var parent, child;
beforeEach(() => {
var protoParent = createProtoChangeDetector();
parent = instantiate(protoParent, null, []);
var protoChild = createProtoChangeDetector();
child = instantiate(protoChild, null, []);
});
it("should add light dom children", () => {
parent.addChild(child);
expect(parent.lightDomChildren.length).toEqual(1);
expect(parent.lightDomChildren[0]).toBe(child);
});
it("should add shadow dom children", () => {
parent.addShadowDomChild(child);
expect(parent.shadowDomChildren.length).toEqual(1);
expect(parent.shadowDomChildren[0]).toBe(child);
});
it("should remove light dom children", () => {
parent.addChild(child);
parent.removeChild(child);
expect(parent.lightDomChildren).toEqual([]);
});
it("should remove shadow dom children", () => {
parent.addShadowDomChild(child);
parent.removeShadowDomChild(child);
expect(parent.shadowDomChildren.length).toEqual(0);
});
});
});
describe("mode", () => {
it("should set the mode to CHECK_ALWAYS when the default change detection is used", () => {
var proto = createProtoChangeDetector(null, DEFAULT);
var cd = proto.instantiate(null, [], [], []);
expect(cd.mode).toEqual(null);
cd.hydrate(null, null, null);
expect(cd.mode).toEqual(CHECK_ALWAYS);
});
it("should set the mode to CHECK_ONCE when the push change detection is used", () => {
var proto = createProtoChangeDetector(null, ON_PUSH);
var cd = proto.instantiate(null, [], [], []);
cd.hydrate(null, null, null);
expect(cd.mode).toEqual(CHECK_ONCE);
});
it("should not check a detached change detector", () => {
var c = createChangeDetector('name', 'a', new TestData("value"));
var cd = c["changeDetector"];
var dispatcher = c["dispatcher"];
cd.mode = DETACHED;
cd.detectChanges();
expect(dispatcher.log).toEqual([]);
});
it("should not check a checked change detector", () => {
var c = createChangeDetector('name', 'a', new TestData("value"));
var cd = c["changeDetector"];
var dispatcher = c["dispatcher"];
cd.mode = CHECKED;
cd.detectChanges();
expect(dispatcher.log).toEqual([]);
});
it("should change CHECK_ONCE to CHECKED", () => {
var cd = instantiate(createProtoChangeDetector(), null, []);
cd.mode = CHECK_ONCE;
cd.detectChanges();
expect(cd.mode).toEqual(CHECKED);
});
it("should not change the CHECK_ALWAYS", () => {
var cd = instantiate(createProtoChangeDetector(), null, []);
cd.mode = CHECK_ALWAYS;
cd.detectChanges();
expect(cd.mode).toEqual(CHECK_ALWAYS);
});
describe("marking ON_PUSH detectors as CHECK_ONCE after an update", () => {
var checkedDetector;
var dirRecordWithOnPush;
var updateDirWithOnPushRecord;
var directives;
beforeEach(() => {
var proto = createProtoChangeDetector(null, ON_PUSH);
checkedDetector = instantiate(proto, null, [], []);
checkedDetector.hydrate(null, null, null);
checkedDetector.mode = CHECKED;
// this directive is a component with ON_PUSH change detection
dirRecordWithOnPush = new DirectiveRecord(0, 0, false, false, ON_PUSH);
// a record updating a component
updateDirWithOnPushRecord =
BindingRecord.createForDirective(ast("42"), "a", (o,v) => o.a = v, dirRecordWithOnPush);
var targetDirective = new TestData(null);
directives = new FakeDirectives([targetDirective], [checkedDetector]);
});
it("should set the mode to CHECK_ONCE when a binding is updated", () => {
var proto = createProtoChangeDetector(null);
var cd = instantiate(proto, null, [updateDirWithOnPushRecord], [dirRecordWithOnPush]);
cd.hydrate(null, null, directives);
expect(checkedDetector.mode).toEqual(CHECKED);
// evaluate the record, update the targetDirective, and mark its detector as CHECK_ONCE
cd.detectChanges();
expect(checkedDetector.mode).toEqual(CHECK_ONCE);
});
});
});
describe("markPathToRootAsCheckOnce", () => {
function changeDetector(mode, parent) {
var cd = instantiate(createProtoChangeDetector(), null, []);
cd.mode = mode;
if (isPresent(parent)) parent.addChild(cd);
return cd;
}
it("should mark all checked detectors as CHECK_ONCE " +
"until reaching a detached one", () => {
var root = changeDetector(CHECK_ALWAYS, null);
var disabled = changeDetector(DETACHED, root);
var parent = changeDetector(CHECKED, disabled);
var checkAlwaysChild = changeDetector(CHECK_ALWAYS, parent);
var checkOnceChild = changeDetector(CHECK_ONCE, checkAlwaysChild);
var checkedChild = changeDetector(CHECKED, checkOnceChild);
checkedChild.markPathToRootAsCheckOnce();
expect(root.mode).toEqual(CHECK_ALWAYS);
expect(disabled.mode).toEqual(DETACHED);
expect(parent.mode).toEqual(CHECK_ONCE);
expect(checkAlwaysChild.mode).toEqual(CHECK_ALWAYS);
expect(checkOnceChild.mode).toEqual(CHECK_ONCE);
expect(checkedChild.mode).toEqual(CHECK_ONCE);
});
});
describe("hydration", () => {
it("should be able to rehydrate a change detector", () => {
var c = createChangeDetector("memo", "name");
var cd = c["changeDetector"];
cd.hydrate("some context", null, null);
expect(cd.hydrated()).toBe(true);
cd.dehydrate();
expect(cd.hydrated()).toBe(false);
cd.hydrate("other context", null, null);
expect(cd.hydrated()).toBe(true);
});
it("should destroy all active pipes during dehyration", () => {
var pipe = new OncePipe();
var registry = new FakePipeRegistry('pipe', () => pipe);
var c = createChangeDetector("memo", "name | pipe", new Person('bob'), null, registry);
var cd = c["changeDetector"];
cd.detectChanges();
cd.dehydrate();
expect(pipe.destroyCalled).toBe(true);
});
});
describe("pipes", () => {
it("should support pipes", () => {
var registry = new FakePipeRegistry('pipe', () => new CountingPipe());
var ctx = new Person("Megatron");
var c = createChangeDetector("memo", "name | pipe", ctx, null, registry);
var cd = c["changeDetector"];
var dispatcher = c["dispatcher"];
cd.detectChanges();
expect(dispatcher.log).toEqual(['memo=Megatron state:0']);
dispatcher.clear();
cd.detectChanges();
expect(dispatcher.log).toEqual(['memo=Megatron state:1']);
});
it("should lookup pipes in the registry when the context is not supported", () => {
var registry = new FakePipeRegistry('pipe', () => new OncePipe());
var ctx = new Person("Megatron");
var c = createChangeDetector("memo", "name | pipe", ctx, null, registry);
var cd = c["changeDetector"];
cd.detectChanges();
expect(registry.numberOfLookups).toEqual(1);
ctx.name = "Optimus Prime";
cd.detectChanges();
expect(registry.numberOfLookups).toEqual(2);
});
it("should invoke onDestroy on a pipe before switching to another one", () => {
var pipe = new OncePipe();
var registry = new FakePipeRegistry('pipe', () => pipe);
var ctx = new Person("Megatron");
var c = createChangeDetector("memo", "name | pipe", ctx, null, registry);
var cd = c["changeDetector"];
cd.detectChanges();
ctx.name = "Optimus Prime";
cd.detectChanges();
expect(pipe.destroyCalled).toEqual(true);
});
it("should inject the ChangeDetectorRef " +
"of the encompassing component into a pipe", () => {
var registry = new FakePipeRegistry('pipe', () => new IdentityPipe());
var c = createChangeDetector("memo", "name | pipe", new Person('bob'), null, registry);
var cd = c["changeDetector"];
cd.detectChanges();
expect(registry.cdRef).toBe(cd.ref);
});
});
it("should do nothing when returns NO_CHANGE", () => {
var registry = new FakePipeRegistry('pipe', () => new IdentityPipe())
var ctx = new Person("Megatron");
var c = createChangeDetector("memo", "name | pipe", ctx, null, registry);
var cd = c["changeDetector"];
var dispatcher = c["dispatcher"];
cd.detectChanges();
cd.detectChanges();
expect(dispatcher.log).toEqual(['memo=Megatron']);
ctx.name = "Optimus Prime";
dispatcher.clear();
cd.detectChanges();
expect(dispatcher.log).toEqual(['memo=Optimus Prime']);
});
});
});
}
class CountingPipe extends Pipe {
state:number;
constructor() {
super();
this.state = 0;
}
supports(newValue) {
return true;
}
transform(value) {
return `${value} state:${this.state ++}`;
}
}
class OncePipe extends Pipe {
called:boolean;
destroyCalled:boolean;
constructor() {
super();
this.called = false;
this.destroyCalled = false;
}
supports(newValue) {
return !this.called;
}
onDestroy() {
this.destroyCalled = true;
}
transform(value) {
this.called = true;
return value;
}
}
class IdentityPipe extends Pipe {
state:any;
supports(newValue) {
return true;
}
transform(value) {
if (this.state === value) {
return NO_CHANGE;
} else {
this.state = value;
return value;
}
}
}
class FakePipeRegistry extends PipeRegistry {
numberOfLookups:number;
pipeType:string;
factory:Function;
cdRef:any;
constructor(pipeType, factory) {
super({});
this.pipeType = pipeType;
this.factory = factory;
this.numberOfLookups = 0;
}
get(type:string, obj, cdRef) {
if (type != this.pipeType) return null;
this.numberOfLookups ++;
this.cdRef = cdRef;
return this.factory();
}
}
class TestDirective {
a;
b;
changes;
onChangesDoneCalled;
onChangesDoneSpy;
constructor(onChangesDoneSpy = null) {
this.onChangesDoneCalled = false;
this.onChangesDoneSpy = onChangesDoneSpy;
this.a = null;
this.b = null;
this.changes = null;
}
onChange(changes) {
var r = {};
StringMapWrapper.forEach(changes, (c, key) => r[key] = c.currentValue);
this.changes = r;
}
onAllChangesDone() {
this.onChangesDoneCalled = true;
if(isPresent(this.onChangesDoneSpy)) {
this.onChangesDoneSpy();
}
}
}
class Person {
name:string;
age:number;
address:Address;
constructor(name:string, address:Address = null) {
this.name = name;
this.address = address;
}
sayHi(m) {
return `Hi, ${m}`;
}
toString():string {
var address = this.address == null ? '' : ' address=' + this.address.toString();
return 'name=' + this.name + address;
}
}
class Address {
city:string;
constructor(city:string) {
this.city = city;
}
toString():string {
return this.city;
}
}
class Uninitialized {
value:any;
}
class TestData {
a;
constructor(a) {
this.a = a;
}
}
class FakeDirectives {
directives:List;
detectors:List;
constructor(directives:List, detectors:List) {
this.directives = directives;
this.detectors = detectors;
}
getDirectiveFor(directiveRecord:DirectiveRecord) {
return this.directives[directiveRecord.directiveIndex];
}
getDetectorFor(directiveRecord:DirectiveRecord) {
return this.detectors[directiveRecord.directiveIndex];
}
}
class TestDispatcher extends ChangeDispatcher {
log:List;
loggedValues:List;
constructor() {
super();
this.clear();
}
clear() {
this.log = ListWrapper.create();
this.loggedValues = ListWrapper.create();
}
notifyOnBinding(binding, value) {
ListWrapper.push(this.log, `${binding.propertyName}=${this._asString(value)}`);
ListWrapper.push(this.loggedValues, value);
}
_asString(value) {
return (isBlank(value) ? 'null' : value.toString());
}
}