angular-docs-cn/packages/compiler-cli/test/compliance/r3_compiler_compliance_spec.ts

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/**
* @license
* Copyright Google Inc. All Rights Reserved.
*
* Use of this source code is governed by an MIT-style license that can be
* found in the LICENSE file at https://angular.io/license
*/
import {AttributeMarker} from '@angular/compiler/src/core';
import {setup} from '@angular/compiler/test/aot/test_util';
import {compile, expectEmit} from './mock_compile';
/**
* These tests are codified version of the tests in compiler_canonical_spec.ts. Every
* test in compiler_canonical_spec.ts should have a corresponding test here.
*/
describe('compiler compliance', () => {
const angularFiles = setup({
compileAngular: false,
compileAnimations: false,
compileFakeCore: true,
});
describe('elements', () => {
it('should handle SVG', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`<div class="my-app" title="Hello"><svg><circle cx="20" cy="30" r="50"/></svg><p>test</p></div>\`
})
export class MyComponent {}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
// The factory should look like this:
const factory =
'factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); }';
// The template should look like this (where IDENT is a wild card for an identifier):
const template = `
const $c1$ = ["title", "Hello", ${AttributeMarker.Classes}, "my-app"];
const $c2$ = ["cx", "20", "cy", "30", "r", "50"];
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelementStart(0, "div", $c1$);
$r3$.ɵnamespaceSVG();
$r3$.ɵelementStart(1, "svg");
$r3$.ɵelement(2, "circle", $c2$);
$r3$.ɵelementEnd();
$r3$.ɵnamespaceHTML();
$r3$.ɵelementStart(3, "p");
$r3$.ɵtext(4, "test");
$r3$.ɵelementEnd();
$r3$.ɵelementEnd();
}
}
`;
const result = compile(files, angularFiles);
expectEmit(result.source, factory, 'Incorrect factory');
expectEmit(result.source, template, 'Incorrect template');
});
it('should handle MathML', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`<div class="my-app" title="Hello"><math><infinity/></math><p>test</p></div>\`
})
export class MyComponent {}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
// The factory should look like this:
const factory =
'factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); }';
// The template should look like this (where IDENT is a wild card for an identifier):
const template = `
const $c1$ = ["title", "Hello", ${AttributeMarker.Classes}, "my-app"];
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelementStart(0, "div", $c1$);
$r3$.ɵnamespaceMathML();
$r3$.ɵelementStart(1, "math");
$r3$.ɵelement(2, "infinity");
$r3$.ɵelementEnd();
$r3$.ɵnamespaceHTML();
$r3$.ɵelementStart(3, "p");
$r3$.ɵtext(4, "test");
$r3$.ɵelementEnd();
$r3$.ɵelementEnd();
}
}
`;
const result = compile(files, angularFiles);
expectEmit(result.source, factory, 'Incorrect factory');
expectEmit(result.source, template, 'Incorrect template');
});
it('should translate DOM structure', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`<div class="my-app" title="Hello">Hello <b>World</b>!</div>\`
})
export class MyComponent {}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
// The factory should look like this:
const factory =
'factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); }';
// The template should look like this (where IDENT is a wild card for an identifier):
const template = `
const $c1$ = ["title", "Hello", ${AttributeMarker.Classes}, "my-app"];
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelementStart(0, "div", $c1$);
$r3$.ɵtext(1, "Hello ");
$r3$.ɵelementStart(2, "b");
$r3$.ɵtext(3, "World");
$r3$.ɵelementEnd();
$r3$.ɵtext(4, "!");
$r3$.ɵelementEnd();
}
}
`;
const result = compile(files, angularFiles);
expectEmit(result.source, factory, 'Incorrect factory');
expectEmit(result.source, template, 'Incorrect template');
});
// TODO(https://github.com/angular/angular/issues/24426): We need to support the parser actually
// building the proper attributes based off of xmlns attributes.
xit('should support namspaced attributes', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`<div xmlns:foo="http://someuri/foo" class="my-app" foo:bar="baz" title="Hello" foo:qux="quacks">Hello <b>World</b>!</div>\`
})
export class MyComponent {}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
// The factory should look like this:
const factory =
'factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); }';
// The template should look like this (where IDENT is a wild card for an identifier):
const template = `
const $e0_attrs$ = ["class", "my-app", 0, "http://someuri/foo", "foo:bar", "baz", "title", "Hello", 0, "http://someuri/foo", "foo:qux", "quacks"];
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelementStart(0, "div", $e0_attrs$);
$r3$.ɵtext(1, "Hello ");
$r3$.ɵelementStart(2, "b");
$r3$.ɵtext(3, "World");
$r3$.ɵelementEnd();
$r3$.ɵtext(4, "!");
$r3$.ɵelementEnd();
}
}
`;
const result = compile(files, angularFiles);
expectEmit(result.source, factory, 'Incorrect factory');
expectEmit(result.source, template, 'Incorrect template');
});
it('should support <ng-container>', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`<ng-container><span>in a </span>container</ng-container>\`
})
export class MyComponent {}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
// The template should look like this (where IDENT is a wild card for an identifier):
const template = `
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
i0.ɵelementContainerStart(0);
i0.ɵelementStart(1, "span");
i0.ɵtext(2, "in a ");
i0.ɵelementEnd();
i0.ɵtext(3, "container");
i0.ɵelementContainerEnd();
}
}
`;
const result = compile(files, angularFiles);
expectEmit(result.source, template, 'Incorrect template');
});
it('should generate elementContainerStart/End instructions for empty <ng-container>', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`<ng-container></ng-container>\`
})
export class MyComponent {}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
// The template should look like this (where IDENT is a wild card for an identifier):
const template = `
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
i0.ɵelementContainerStart(0);
i0.ɵelementContainerEnd();
}
}
`;
const result = compile(files, angularFiles);
expectEmit(result.source, template, 'Incorrect template');
});
it('should bind to element properties', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`<div [id]="id"></div>\`
})
export class MyComponent {
id = 'one';
}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
const factory =
'factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); }';
const template = `
const $e0_attrs$ = [${AttributeMarker.Bindings}, "id"];
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelement(0, "div", $e0_attrs$);
}
if (rf & 2) {
$r3$.ɵelementProperty(0, "id", $r3$.ɵbind(ctx.id));
}
}
`;
const result = compile(files, angularFiles);
expectEmit(result.source, factory, 'Incorrect factory');
expectEmit(result.source, template, 'Incorrect template');
});
it('should reserve slots for pure functions', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`<div
[ternary]="cond ? [a] : [0]"
[pipe]="value | pipe:1:2"
[and]="cond && [b]"
[or]="cond || [c]"
></div>\`
})
export class MyComponent {
id = 'one';
}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
const $e0_attrs$ = [];
const factory =
'factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); }';
const template = `
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelement(0, "div", $e0_attrs$);
$r3$.ɵpipe(1,"pipe");
}
if (rf & 2) {
$r3$.ɵelementProperty(0, "ternary", $r3$.ɵbind((ctx.cond ? $r3$.ɵpureFunction1(8, $c0$, ctx.a): $c1$)));
$r3$.ɵelementProperty(0, "pipe", $r3$.ɵbind($r3$.ɵpipeBind3(1, 4, ctx.value, 1, 2)));
$r3$.ɵelementProperty(0, "and", $r3$.ɵbind((ctx.cond && $r3$.ɵpureFunction1(10, $c0$, ctx.b))));
$r3$.ɵelementProperty(0, "or", $r3$.ɵbind((ctx.cond || $r3$.ɵpureFunction1(12, $c0$, ctx.c))));
}
}
`;
const result = compile(files, angularFiles);
expectEmit(result.source, factory, 'Incorrect factory');
expectEmit(result.source, template, 'Incorrect template');
});
it('should reserve slots for pure functions in host binding function', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule, Input} from '@angular/core';
@Component({
selector: 'my-component',
template: '...',
host: {
'[@expansionHeight]': \`{
value: getExpandedState(),
params: {
collapsedHeight: collapsedHeight,
expandedHeight: expandedHeight
}
}\`,
'[@expansionWidth]': \`{
value: getExpandedState(),
params: {
collapsedWidth: collapsedWidth,
expandedWidth: expandedWidth
}
}\`
}
})
export class MyComponent {
@Input() expandedHeight: string;
@Input() collapsedHeight: string;
@Input() expandedWidth: string;
@Input() collapsedWidth: string;
getExpandedState() {
return 'expanded';
}
}
@NgModule({
declarations: [MyComponent]
})
export class MyModule {}
`
}
};
const hostBindingsDef = `
const $_c0$ = function (a0, a1) { return { collapsedHeight: a0, expandedHeight: a1 }; };
const $_c1$ = function (a0, a1) { return { value: a0, params: a1 }; };
const $_c2$ = function (a0, a1) { return { collapsedWidth: a0, expandedWidth: a1 }; };
hostBindings: function MyComponent_HostBindings(rf, ctx, elIndex) {
if (rf & 1) {
$r3$.ɵallocHostVars(14);
}
if (rf & 2) {
$r3$.ɵcomponentHostSyntheticProperty(elIndex, "@expansionHeight",
$r3$.ɵbind(
$r3$.ɵpureFunction2(5, $_c1$, ctx.getExpandedState(),
$r3$.ɵpureFunction2(2, $_c0$, ctx.collapsedHeight, ctx.expandedHeight)
)
), null, true
);
$r3$.ɵcomponentHostSyntheticProperty(elIndex, "@expansionWidth",
$r3$.ɵbind(
$r3$.ɵpureFunction2(11, $_c1$, ctx.getExpandedState(),
$r3$.ɵpureFunction2(8, $_c2$, ctx.collapsedWidth, ctx.expandedWidth)
)
), null, true
);
}
},
`;
const result = compile(files, angularFiles);
expectEmit(result.source, hostBindingsDef, 'Incorrect "hostBindings" function');
});
it('should bind to class and style names', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`<div [class.error]="error" [style.background-color]="color"></div>\`
})
export class MyComponent {
error = true;
color = 'red';
}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
const factory =
'factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); }';
const template = `
const $e0_classBindings$ = ["error"];
const $e0_styleBindings$ = ["background-color"];
MyComponent.ngComponentDef = i0.ɵdefineComponent({type:MyComponent,selectors:[["my-component"]],
factory: function MyComponent_Factory(t){
return new (t || MyComponent)();
},
consts: 1,
vars: 0,
template: function MyComponent_Template(rf,ctx){
if (rf & 1) {
$r3$.ɵelementStart(0, "div");
$r3$.ɵelementStyling($e0_classBindings$, $e0_styleBindings$);
$r3$.ɵelementEnd();
}
if (rf & 2) {
$r3$.ɵelementStyleProp(0, 0, ctx.color);
$r3$.ɵelementClassProp(0, 0, ctx.error);
$r3$.ɵelementStylingApply(0);
}
},
encapsulation: 2
});
`;
const result = compile(files, angularFiles);
expectEmit(result.source, factory, 'Incorrect factory');
expectEmit(result.source, template, 'Incorrect template');
});
});
describe('components & directives', () => {
it('should instantiate directives', () => {
const files = {
app: {
'spec.ts': `
import {Component, Directive, NgModule} from '@angular/core';
@Component({selector: 'child', template: 'child-view'})
export class ChildComponent {}
@Directive({selector: '[some-directive]'})
export class SomeDirective {}
@Component({selector: 'my-component', template: '<child some-directive></child>!'})
export class MyComponent {}
@NgModule({declarations: [ChildComponent, SomeDirective, MyComponent]})
export class MyModule{}
`
}
};
// ChildComponent definition should be:
const ChildComponentDefinition = `
ChildComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: ChildComponent,
selectors: [["child"]],
factory: function ChildComponent_Factory(t) { return new (t || ChildComponent)(); },
consts: 1,
vars: 0,
template: function ChildComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵtext(0, "child-view");
}
},
encapsulation: 2
});`;
// SomeDirective definition should be:
const SomeDirectiveDefinition = `
SomeDirective.ngDirectiveDef = $r3$.ɵdefineDirective({
type: SomeDirective,
selectors: [["", "some-directive", ""]],
factory: function SomeDirective_Factory(t) {return new (t || SomeDirective)(); }
});
`;
// MyComponent definition should be:
const MyComponentDefinition = `
const $c1$ = ["some-directive", ""];
MyComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: MyComponent,
selectors: [["my-component"]],
factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); },
consts: 2,
vars: 0,
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelement(0, "child", $c1$);
$r3$.ɵtext(1, "!");
}
},
directives: [ChildComponent, SomeDirective],
encapsulation: 2
});
`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, ChildComponentDefinition, 'Incorrect ChildComponent.ngComponentDef');
expectEmit(source, SomeDirectiveDefinition, 'Incorrect SomeDirective.ngDirectiveDef');
expectEmit(source, MyComponentDefinition, 'Incorrect MyComponentDefinition.ngComponentDef');
});
it('should support complex selectors', () => {
const files = {
app: {
'spec.ts': `
import {Directive, NgModule} from '@angular/core';
@Directive({selector: 'div.foo[some-directive]:not([title]):not(.baz)'})
export class SomeDirective {}
@Directive({selector: ':not(span[title]):not(.baz)'})
export class OtherDirective {}
@NgModule({declarations: [SomeDirective, OtherDirective]})
export class MyModule{}
`
}
};
// SomeDirective definition should be:
const SomeDirectiveDefinition = `
SomeDirective.ngDirectiveDef = $r3$.ɵdefineDirective({
type: SomeDirective,
selectors: [["div", "some-directive", "", 8, "foo", 3, "title", "", 9, "baz"]],
factory: function SomeDirective_Factory(t) {return new (t || SomeDirective)(); }
});
`;
// OtherDirective definition should be:
const OtherDirectiveDefinition = `
OtherDirective.ngDirectiveDef = $r3$.ɵdefineDirective({
type: OtherDirective,
selectors: [["", 5, "span", "title", "", 9, "baz"]],
factory: function OtherDirective_Factory(t) {return new (t || OtherDirective)(); }
});
`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, SomeDirectiveDefinition, 'Incorrect SomeDirective.ngDirectiveDef');
expectEmit(source, OtherDirectiveDefinition, 'Incorrect OtherDirective.ngDirectiveDef');
});
it('should support components without selector', () => {
const files = {
app: {
'spec.ts': `
import {Component, Directive, NgModule} from '@angular/core';
@Component({template: '<router-outlet></router-outlet>'})
export class EmptyOutletComponent {}
@NgModule({declarations: [EmptyOutletComponent]})
export class MyModule{}
`
}
};
// EmptyOutletComponent definition should be:
const EmptyOutletComponentDefinition = `
EmptyOutletComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: EmptyOutletComponent,
selectors: [["ng-component"]],
factory: function EmptyOutletComponent_Factory(t) { return new (t || EmptyOutletComponent)(); },
consts: 1,
vars: 0,
template: function EmptyOutletComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelement(0, "router-outlet");
}
},
encapsulation: 2
});
`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(
source, EmptyOutletComponentDefinition, 'Incorrect EmptyOutletComponent.ngComponentDef');
});
it('should not support directives without selector', () => {
const files = {
app: {
'spec.ts': `
import {Component, Directive, NgModule} from '@angular/core';
@Directive({})
export class EmptyOutletDirective {}
@NgModule({declarations: [EmptyOutletDirective]})
export class MyModule{}
`
}
};
expect(() => compile(files, angularFiles))
.toThrowError('Directive EmptyOutletDirective has no selector, please add it!');
});
it('should not support directives with empty selector', () => {
const files = {
app: {
'spec.ts': `
import {Component, Directive, NgModule} from '@angular/core';
@Directive({selector: ''})
export class EmptyOutletDirective {}
@NgModule({declarations: [EmptyOutletDirective]})
export class MyModule{}
`
}
};
expect(() => compile(files, angularFiles))
.toThrowError('Directive EmptyOutletDirective has no selector, please add it!');
});
it('should not treat ElementRef, ViewContainerRef, or ChangeDetectorRef specially when injecting',
() => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule, ElementRef, ChangeDetectorRef, ViewContainerRef} from '@angular/core';
@Component({
selector: 'my-component',
template: ''
})
export class MyComponent {
constructor(public el: ElementRef, public vcr: ViewContainerRef, public cdr: ChangeDetectorRef) {}
}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
const MyComponentDefinition = `
MyComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: MyComponent,
selectors: [["my-component"]],
factory: function MyComponent_Factory(t) {
return new (t || MyComponent)(
$r3$.ɵdirectiveInject($i$.ElementRef), $r3$.ɵdirectiveInject($i$.ViewContainerRef),
$r3$.ɵdirectiveInject($i$.ChangeDetectorRef));
},
consts: 0,
vars: 0,
template: function MyComponent_Template(rf, ctx) {},
encapsulation: 2
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, MyComponentDefinition, 'Incorrect MyComponent.ngComponentDef');
});
it('should support structural directives', () => {
const files = {
app: {
'spec.ts': `
import {Component, Directive, NgModule, TemplateRef} from '@angular/core';
@Directive({selector: '[if]'})
export class IfDirective {
constructor(template: TemplateRef<any>) { }
}
@Component({
selector: 'my-component',
template: '<ul #foo><li *if>{{salutation}} {{foo}}</li></ul>'
})
export class MyComponent {
salutation = 'Hello';
}
@NgModule({declarations: [IfDirective, MyComponent]})
export class MyModule {}
`
}
};
const IfDirectiveDefinition = `
IfDirective.ngDirectiveDef = $r3$.ɵdefineDirective({
type: IfDirective,
selectors: [["", "if", ""]],
factory: function IfDirective_Factory(t) { return new (t || IfDirective)($r3$.ɵdirectiveInject($i$.TemplateRef)); }
});`;
const MyComponentDefinition = `
const $c1$ = ["foo", ""];
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
const $c2$ = [${AttributeMarker.Template}, "if"];
function MyComponent_li_2_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelementStart(0, "li");
$r3$.ɵtext(1);
$r3$.ɵelementEnd();
}
if (rf & 2) {
const $myComp$ = $r3$.ɵnextContext();
const $foo$ = $r3$.ɵreference(1);
$r3$.ɵflushHooksUpTo(1);
$r3$.ɵtextBinding(1, $r3$.ɵinterpolation2("", $myComp$.salutation, " ", $foo$, ""));
}
}
MyComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: MyComponent,
selectors: [["my-component"]],
factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); },
consts: 3,
vars: 0,
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelementStart(0, "ul", null, $c1$);
$r3$.ɵtemplate(2, MyComponent_li_2_Template, 2, 2, "li", $c2$);
$r3$.ɵelementEnd();
}
},
directives:[IfDirective],
encapsulation: 2
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, IfDirectiveDefinition, 'Incorrect IfDirective.ngDirectiveDef');
expectEmit(source, MyComponentDefinition, 'Incorrect MyComponent.ngComponentDef');
});
describe('value composition', () => {
it('should support array literals', () => {
const files = {
app: {
'spec.ts': `
import {Component, Input, NgModule} from '@angular/core';
@Component({
selector: 'my-comp',
template: \`
<p>{{ names[0] }}</p>
<p>{{ names[1] }}</p>
\`
})
export class MyComp {
@Input() names: string[];
}
@Component({
selector: 'my-app',
template: \`
<my-comp [names]="['Nancy', customName]"></my-comp>
\`
})
export class MyApp {
customName = 'Bess';
}
@NgModule({declarations: [MyComp, MyApp]})
export class MyModule { }
`
}
};
const MyAppDeclaration = `
const $e0_attrs$ = [${AttributeMarker.Bindings}, "names"];
const $e0_ff$ = function ($v$) { return ["Nancy", $v$]; };
MyApp.ngComponentDef = $r3$.ɵdefineComponent({
type: MyApp,
selectors: [["my-app"]],
factory: function MyApp_Factory(t) { return new (t || MyApp)(); },
consts: 1,
vars: 3,
template: function MyApp_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelement(0, "my-comp", $e0_attrs$);
}
if (rf & 2) {
$r3$.ɵelementProperty(0, "names", $r3$.ɵbind($r3$.ɵpureFunction1(1, $e0_ff$, ctx.customName)));
}
},
directives: [MyComp],
encapsulation: 2
});
`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, MyAppDeclaration, 'Invalid array emit');
});
it('should support 9+ bindings in array literals', () => {
const files = {
app: {
'spec.ts': `
import {Component, Input, NgModule} from '@angular/core';
@Component({
selector: 'my-comp',
template: \`
{{ names[0] }}
{{ names[1] }}
{{ names[3] }}
{{ names[4] }}
{{ names[5] }}
{{ names[6] }}
{{ names[7] }}
{{ names[8] }}
{{ names[9] }}
{{ names[10] }}
{{ names[11] }}
\`
})
export class MyComp {
@Input() names: string[];
}
@Component({
selector: 'my-app',
template: \`
<my-comp [names]="['start-', n0, n1, n2, n3, n4, '-middle-', n5, n6, n7, n8, '-end']">
</my-comp>
\`
})
export class MyApp {
n0 = 'a';
n1 = 'b';
n2 = 'c';
n3 = 'd';
n4 = 'e';
n5 = 'f';
n6 = 'g';
n7 = 'h';
n8 = 'i';
}
@NgModule({declarations: [MyComp, MyApp]})
export class MyModule {}
`
}
};
const MyAppDefinition = `
const $e0_attr$ = [${AttributeMarker.Bindings}, "names"];
const $e0_ff$ = function ($v0$, $v1$, $v2$, $v3$, $v4$, $v5$, $v6$, $v7$, $v8$) {
return ["start-", $v0$, $v1$, $v2$, $v3$, $v4$, "-middle-", $v5$, $v6$, $v7$, $v8$, "-end"];
}
MyApp.ngComponentDef = $r3$.ɵdefineComponent({
type: MyApp,
selectors: [["my-app"]],
factory: function MyApp_Factory(t) { return new (t || MyApp)(); },
consts: 1,
vars: 11,
template: function MyApp_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelement(0, "my-comp", $e0_attr$);
}
if (rf & 2) {
$r3$.ɵelementProperty(
0, "names",
$r3$.ɵbind($r3$.ɵpureFunctionV(1, $e0_ff$, [ctx.n0, ctx.n1, ctx.n2, ctx.n3, ctx.n4, ctx.n5, ctx.n6, ctx.n7, ctx.n8])));
}
},
directives: [MyComp],
encapsulation: 2
});
`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, MyAppDefinition, 'Invalid array binding');
});
it('should support object literals', () => {
const files = {
app: {
'spec.ts': `
import {Component, Input, NgModule} from '@angular/core';
@Component({
selector: 'object-comp',
template: \`
<p> {{ config['duration'] }} </p>
<p> {{ config.animation }} </p>
\`
})
export class ObjectComp {
@Input() config: {[key: string]: any};
}
@Component({
selector: 'my-app',
template: \`
<object-comp [config]="{'duration': 500, animation: name}"></object-comp>
\`
})
export class MyApp {
name = 'slide';
}
@NgModule({declarations: [ObjectComp, MyApp]})
export class MyModule {}
`
}
};
const MyAppDefinition = `
const $e0_attrs$ = [${AttributeMarker.Bindings}, "config"];
const $e0_ff$ = function ($v$) { return {"duration": 500, animation: $v$}; };
MyApp.ngComponentDef = $r3$.ɵdefineComponent({
type: MyApp,
selectors: [["my-app"]],
factory: function MyApp_Factory(t) { return new (t || MyApp)(); },
consts: 1,
vars: 3,
template: function MyApp_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelement(0, "object-comp", $e0_attrs$);
}
if (rf & 2) {
$r3$.ɵelementProperty(0, "config", $r3$.ɵbind($r3$.ɵpureFunction1(1, $e0_ff$, ctx.name)));
}
},
directives: [ObjectComp],
encapsulation: 2
});
`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, MyAppDefinition, 'Invalid object literal binding');
});
it('should support expressions nested deeply in object/array literals', () => {
const files = {
app: {
'spec.ts': `
import {Component, Input, NgModule} from '@angular/core';
@Component({
selector: 'nested-comp',
template: \`
<p> {{ config.animation }} </p>
<p> {{config.actions[0].opacity }} </p>
<p> {{config.actions[1].duration }} </p>
\`
})
export class NestedComp {
@Input() config: {[key: string]: any};
}
@Component({
selector: 'my-app',
template: \`
<nested-comp [config]="{animation: name, actions: [{ opacity: 0, duration: 0}, {opacity: 1, duration: duration }]}">
</nested-comp>
\`
})
export class MyApp {
name = 'slide';
duration = 100;
}
@NgModule({declarations: [NestedComp, MyApp]})
export class MyModule {}
`
}
};
const MyAppDefinition = `
const $e0_attrs$ = [${AttributeMarker.Bindings}, "config"];
const $c0$ = {opacity: 0, duration: 0};
const $e0_ff$ = function ($v$) { return {opacity: 1, duration: $v$}; };
const $e0_ff_1$ = function ($v$) { return [$c0$, $v$]; };
const $e0_ff_2$ = function ($v1$, $v2$) { return {animation: $v1$, actions: $v2$}; };
MyApp.ngComponentDef = $r3$.ɵdefineComponent({
type: MyApp,
selectors: [["my-app"]],
factory: function MyApp_Factory(t) { return new (t || MyApp)(); },
consts: 1,
vars: 8,
template: function MyApp_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelement(0, "nested-comp", $e0_attrs$);
}
if (rf & 2) {
$r3$.ɵelementProperty(
0, "config",
$r3$.ɵbind($r3$.ɵpureFunction2(5, $e0_ff_2$, ctx.name, $r3$.ɵpureFunction1(3, $e0_ff_1$, $r3$.ɵpureFunction1(1, $e0_ff$, ctx.duration)))));
}
},
directives: [NestedComp],
encapsulation: 2
});
`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, MyAppDefinition, 'Invalid array/object literal binding');
});
});
describe('content projection', () => {
it('should support content projection in root template', () => {
const files = {
app: {
'spec.ts': `
import {Component, Directive, NgModule, TemplateRef} from '@angular/core';
@Component({selector: 'simple', template: '<div><ng-content></ng-content></div>'})
export class SimpleComponent {}
@Component({
selector: 'complex',
template: \`
<div id="first"><ng-content select="span[title=toFirst]"></ng-content></div>
<div id="second"><ng-content SELECT="span[title=toSecond]"></ng-content></div>\`
})
export class ComplexComponent { }
@NgModule({declarations: [SimpleComponent, ComplexComponent]})
export class MyModule {}
@Component({
selector: 'my-app',
template: '<simple>content</simple> <complex></complex>'
})
export class MyApp {}
`
}
};
const SimpleComponentDefinition = `
SimpleComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: SimpleComponent,
selectors: [["simple"]],
factory: function SimpleComponent_Factory(t) { return new (t || SimpleComponent)(); },
ngContentSelectors: _c0,
consts: 2,
vars: 0,
template: function SimpleComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵprojectionDef();
$r3$.ɵelementStart(0, "div");
$r3$.ɵprojection(1);
$r3$.ɵelementEnd();
}
},
encapsulation: 2
});`;
const ComplexComponentDefinition = `
const $c3$ = ["id","first"];
const $c4$ = ["id","second"];
const $c1$ = [[["span", "title", "tofirst"]], [["span", "title", "tosecond"]]];
const $c2$ = ["span[title=toFirst]", "span[title=toSecond]"];
ComplexComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: ComplexComponent,
selectors: [["complex"]],
factory: function ComplexComponent_Factory(t) { return new (t || ComplexComponent)(); },
ngContentSelectors: _c4,
consts: 4,
vars: 0,
template: function ComplexComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵprojectionDef($c1$, $c2$);
$r3$.ɵelementStart(0, "div", $c3$);
$r3$.ɵprojection(1, 1);
$r3$.ɵelementEnd();
$r3$.ɵelementStart(2, "div", $c4$);
$r3$.ɵprojection(3, 2);
$r3$.ɵelementEnd();
}
},
encapsulation: 2
});
`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(
result.source, SimpleComponentDefinition, 'Incorrect SimpleComponent definition');
expectEmit(
result.source, ComplexComponentDefinition, 'Incorrect ComplexComponent definition');
});
it('should support content projection in nested templates', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
template: \`
<div id="second" *ngIf="visible">
<ng-content SELECT="span[title=toFirst]"></ng-content>
</div>
<div id="third" *ngIf="visible">
No ng-content, no instructions generated.
</div>
<ng-template>
'*' selector: <ng-content></ng-content>
</ng-template>
\`,
})
class Cmp {}
@NgModule({ declarations: [Cmp] })
class Module {}
`
}
};
const output = `
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
const $_c0$ = ["id", "second", ${AttributeMarker.Template}, "ngIf"];
const $_c1$ = ["id", "third", ${AttributeMarker.Template}, "ngIf"];
const $_c2$ = ["id", "second"];
function Cmp_div_0_Template(rf, ctx) { if (rf & 1) {
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
$r3$.ɵelementStart(0, "div", $_c2$);
$r3$.ɵprojection(1, 1);
$r3$.ɵelementEnd();
} }
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
const $_c3$ = ["id", "third"];
function Cmp_div_1_Template(rf, ctx) {
if (rf & 1) {
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
$r3$.ɵelementStart(0, "div", $_c3$);
$r3$.ɵtext(1, " No ng-content, no instructions generated. ");
$r3$.ɵelementEnd();
}
}
function Cmp_ng_template_2_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵtext(0, " '*' selector: ");
$r3$.ɵprojection(1);
}
}
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
const $_c4$ = [[["span", "title", "tofirst"]]];
const $_c5$ = ["span[title=toFirst]"];
template: function Cmp_Template(rf, ctx) {
if (rf & 1) {
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
$r3$.ɵprojectionDef($_c4$, $_c5$);
$r3$.ɵtemplate(0, Cmp_div_0_Template, 2, 0, "div", $_c0$);
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
$r3$.ɵtemplate(1, Cmp_div_1_Template, 2, 0, "div", $_c1$);
$r3$.ɵtemplate(2, Cmp_ng_template_2_Template, 2, 0, "ng-template");
}
if (rf & 2) {
$r3$.ɵelementProperty(0, "ngIf", $r3$.ɵbind(ctx.visible));
$r3$.ɵflushHooksUpTo(1);
$r3$.ɵelementProperty(1, "ngIf", $r3$.ɵbind(ctx.visible));
}
}
`;
const {source} = compile(files, angularFiles);
expectEmit(source, output, 'Invalid content projection instructions generated');
});
it('should support content projection in both the root and nested templates', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
template: \`
<ng-content select="[id=toMainBefore]"></ng-content>
<ng-template>
<ng-content select="[id=toTemplate]"></ng-content>
<ng-template>
<ng-content select="[id=toNestedTemplate]"></ng-content>
</ng-template>
</ng-template>
<ng-template>
'*' selector in a template: <ng-content></ng-content>
</ng-template>
<ng-content select="[id=toMainAfter]"></ng-content>
\`,
})
class Cmp {}
@NgModule({ declarations: [Cmp] })
class Module {}
`
}
};
const output = `
function Cmp_ng_template_1_ng_template_1_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵprojection(0, 4);
}
}
function Cmp_ng_template_1_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵprojection(0, 3);
$r3$.ɵtemplate(1, Cmp_ng_template_1_ng_template_1_Template, 1, 0, "ng-template");
}
}
function Cmp_ng_template_2_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵtext(0, " '*' selector in a template: ");
$r3$.ɵprojection(1);
}
}
const $_c0$ = [[["", "id", "tomainbefore"]], [["", "id", "tomainafter"]], [["", "id", "totemplate"]], [["", "id", "tonestedtemplate"]]];
const $_c1$ = ["[id=toMainBefore]", "[id=toMainAfter]", "[id=toTemplate]", "[id=toNestedTemplate]"];
template: function Cmp_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵprojectionDef($_c2$, $_c3$);
$r3$.ɵprojection(0, 1);
$r3$.ɵtemplate(1, Cmp_ng_template_1_Template, 2, 0, "ng-template");
$r3$.ɵtemplate(2, Cmp_ng_template_2_Template, 2, 0, "ng-template");
$r3$.ɵprojection(3, 2);
}
}
`;
const {source} = compile(files, angularFiles);
expectEmit(source, output, 'Invalid content projection instructions generated');
});
});
describe('queries', () => {
const directive = {
'some.directive.ts': `
import {Directive} from '@angular/core';
@Directive({
selector: '[someDir]',
})
export class SomeDirective { }
`
};
it('should support view queries with directives', () => {
const files = {
app: {
...directive,
'view_query.component.ts': `
import {Component, NgModule, ViewChild, ViewChildren} from '@angular/core';
import {SomeDirective} from './some.directive';
@Component({
selector: 'view-query-component',
template: \`
<div someDir></div>
\`
})
export class ViewQueryComponent {
@ViewChild(SomeDirective) someDir: SomeDirective;
@ViewChildren(SomeDirective) someDirs: QueryList<SomeDirective>;
}
@NgModule({declarations: [SomeDirective, ViewQueryComponent]})
export class MyModule {}
`
}
};
const ViewQueryComponentDefinition = `
const $e0_attrs$ = ["someDir",""];
ViewQueryComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: ViewQueryComponent,
selectors: [["view-query-component"]],
factory: function ViewQueryComponent_Factory(t) { return new (t || ViewQueryComponent)(); },
viewQuery: function ViewQueryComponent_Query(rf, ctx) {
if (rf & 1) {
$r3$.ɵviewQuery(SomeDirective, true, null);
$r3$.ɵviewQuery(SomeDirective, true, null);
}
if (rf & 2) {
var $tmp$;
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadViewQuery())) && (ctx.someDir = $tmp$.first));
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadViewQuery())) && (ctx.someDirs = $tmp$));
}
},
consts: 1,
vars: 0,
template: function ViewQueryComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelement(0, "div", $e0_attrs$);
}
},
directives: function () { return [SomeDirective]; },
encapsulation: 2
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, ViewQueryComponentDefinition, 'Invalid ViewQuery declaration');
});
it('should support view queries with local refs', () => {
const files = {
app: {
'view_query.component.ts': `
import {Component, NgModule, ViewChild, ViewChildren, QueryList} from '@angular/core';
@Component({
selector: 'view-query-component',
template: \`
<div #myRef></div>
<div #myRef1></div>
\`
})
export class ViewQueryComponent {
@ViewChild('myRef') myRef: any;
@ViewChildren('myRef1, myRef2, myRef3') myRefs: QueryList<any>;
}
@NgModule({declarations: [ViewQueryComponent]})
export class MyModule {}
`
}
};
const ViewQueryComponentDefinition = `
const $e0_attrs$ = ["myRef"];
const $e1_attrs$ = ["myRef1", "myRef2", "myRef3"];
ViewQueryComponent.ngComponentDef = $r3$.ɵdefineComponent({
viewQuery: function ViewQueryComponent_Query(rf, ctx) {
if (rf & 1) {
$r3$.ɵviewQuery($e0_attrs$, true, null);
$r3$.ɵviewQuery($e1_attrs$, true, null);
}
if (rf & 2) {
var $tmp$;
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadViewQuery())) && (ctx.myRef = $tmp$.first));
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadViewQuery())) && (ctx.myRefs = $tmp$));
}
},
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, ViewQueryComponentDefinition, 'Invalid ViewQuery declaration');
});
it('should support static view queries', () => {
const files = {
app: {
...directive,
'view_query.component.ts': `
import {Component, NgModule, ViewChild} from '@angular/core';
import {SomeDirective} from './some.directive';
@Component({
selector: 'view-query-component',
template: \`
<div someDir></div>
\`
})
export class ViewQueryComponent {
@ViewChild(SomeDirective, {static: true}) someDir !: SomeDirective;
@ViewChild('foo', {static: false}) foo !: ElementRef;
}
@NgModule({declarations: [SomeDirective, ViewQueryComponent]})
export class MyModule {}
`
}
};
const ViewQueryComponentDefinition = `
const $refs$ = ["foo"];
const $e0_attrs$ = ["someDir",""];
ViewQueryComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: ViewQueryComponent,
selectors: [["view-query-component"]],
factory: function ViewQueryComponent_Factory(t) { return new (t || ViewQueryComponent)(); },
viewQuery: function ViewQueryComponent_Query(rf, ctx) {
if (rf & 1) {
$r3$.ɵstaticViewQuery(SomeDirective, true, null);
$r3$.ɵviewQuery($refs$, true, null);
}
if (rf & 2) {
var $tmp$;
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadViewQuery())) && (ctx.someDir = $tmp$.first));
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadViewQuery())) && (ctx.foo = $tmp$.first));
}
},
consts: 1,
vars: 0,
template: function ViewQueryComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelement(0, "div", $e0_attrs$);
}
},
directives: function () { return [SomeDirective]; },
encapsulation: 2
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, ViewQueryComponentDefinition, 'Invalid ViewQuery declaration');
});
it('should support view queries with read tokens specified', () => {
const files = {
app: {
...directive,
'view_query.component.ts': `
import {Component, NgModule, ViewChild, ViewChildren, QueryList, ElementRef, TemplateRef} from '@angular/core';
import {SomeDirective} from './some.directive';
@Component({
selector: 'view-query-component',
template: \`
<div someDir></div>
<div #myRef></div>
<div #myRef1></div>
\`
})
export class ViewQueryComponent {
@ViewChild('myRef', {read: TemplateRef}) myRef: TemplateRef;
@ViewChildren('myRef1, myRef2, myRef3', {read: ElementRef}) myRefs: QueryList<ElementRef>;
@ViewChild(SomeDirective, {read: ElementRef}) someDir: ElementRef;
@ViewChildren(SomeDirective, {read: TemplateRef}) someDirs: QueryList<TemplateRef>;
}
@NgModule({declarations: [ViewQueryComponent]})
export class MyModule {}
`
}
};
const ViewQueryComponentDefinition = `
const $e0_attrs$ = ["myRef"];
const $e1_attrs$ = ["myRef1", "myRef2", "myRef3"];
ViewQueryComponent.ngComponentDef = $r3$.ɵdefineComponent({
viewQuery: function ViewQueryComponent_Query(rf, ctx) {
if (rf & 1) {
$r3$.ɵviewQuery($e0_attrs$, true, TemplateRef);
$r3$.ɵviewQuery(SomeDirective, true, ElementRef);
$r3$.ɵviewQuery($e1_attrs$, true, ElementRef);
$r3$.ɵviewQuery(SomeDirective, true, TemplateRef);
}
if (rf & 2) {
var $tmp$;
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadViewQuery())) && (ctx.myRef = $tmp$.first));
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadViewQuery())) && (ctx.someDir = $tmp$.first));
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadViewQuery())) && (ctx.myRefs = $tmp$));
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadViewQuery())) && (ctx.someDirs = $tmp$));
}
},
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, ViewQueryComponentDefinition, 'Invalid ViewQuery declaration');
});
it('should support content queries with directives', () => {
const files = {
app: {
...directive,
'content_query.ts': `
import {Component, ContentChild, ContentChildren, NgModule, QueryList} from '@angular/core';
import {SomeDirective} from './some.directive';
@Component({
selector: 'content-query-component',
template: \`
<div><ng-content></ng-content></div>
\`
})
export class ContentQueryComponent {
@ContentChild(SomeDirective) someDir: SomeDirective;
@ContentChildren(SomeDirective) someDirList !: QueryList<SomeDirective>;
}
@Component({
selector: 'my-app',
template: \`
<content-query-component>
<div someDir></div>
</content-query-component>
\`
})
export class MyApp { }
@NgModule({declarations: [SomeDirective, ContentQueryComponent, MyApp]})
export class MyModule { }
`
}
};
const ContentQueryComponentDefinition = `
ContentQueryComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: ContentQueryComponent,
selectors: [["content-query-component"]],
factory: function ContentQueryComponent_Factory(t) {
return new (t || ContentQueryComponent)();
},
contentQueries: function ContentQueryComponent_ContentQueries(rf, ctx, dirIndex) {
if (rf & 1) {
$r3$.ɵcontentQuery(dirIndex, SomeDirective, true, null);
$r3$.ɵcontentQuery(dirIndex, SomeDirective, false, null);
}
if (rf & 2) {
var $tmp$;
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadContentQuery())) && (ctx.someDir = $tmp$.first));
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadContentQuery())) && (ctx.someDirList = $tmp$));
}
},
ngContentSelectors: _c0,
consts: 2,
vars: 0,
template: function ContentQueryComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵprojectionDef();
$r3$.ɵelementStart(0, "div");
$r3$.ɵprojection(1);
$r3$.ɵelementEnd();
}
},
encapsulation: 2
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, ContentQueryComponentDefinition, 'Invalid ContentQuery declaration');
});
it('should support content queries with local refs', () => {
const files = {
app: {
'content_query.component.ts': `
import {Component, ContentChild, ContentChildren, NgModule, QueryList} from '@angular/core';
@Component({
selector: 'content-query-component',
template: \`
<div #myRef></div>
<div #myRef1></div>
\`
})
export class ContentQueryComponent {
@ContentChild('myRef') myRef: any;
@ContentChildren('myRef1, myRef2, myRef3') myRefs: QueryList<any>;
}
@NgModule({declarations: [ContentQueryComponent]})
export class MyModule {}
`
}
};
const ContentQueryComponentDefinition = `
const $e0_attrs$ = ["myRef"];
const $e1_attrs$ = ["myRef1", "myRef2", "myRef3"];
ContentQueryComponent.ngComponentDef = $r3$.ɵdefineComponent({
contentQueries: function ContentQueryComponent_ContentQueries(rf, ctx, dirIndex) {
if (rf & 1) {
$r3$.ɵcontentQuery(dirIndex, $e0_attrs$, true, null);
$r3$.ɵcontentQuery(dirIndex, $e1_attrs$, false, null);
}
if (rf & 2) {
var $tmp$;
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadContentQuery())) && (ctx.myRef = $tmp$.first));
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadContentQuery())) && (ctx.myRefs = $tmp$));
}
},
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, ContentQueryComponentDefinition, 'Invalid ContentQuery declaration');
});
it('should support static content queries', () => {
const files = {
app: {
...directive,
'content_query.ts': `
import {Component, ContentChild, NgModule} from '@angular/core';
import {SomeDirective} from './some.directive';
@Component({
selector: 'content-query-component',
template: \`
<div><ng-content></ng-content></div>
\`
})
export class ContentQueryComponent {
@ContentChild(SomeDirective, {static: true}) someDir !: SomeDirective;
@ContentChild('foo', {static: false}) foo !: ElementRef;
}
@Component({
selector: 'my-app',
template: \`
<content-query-component>
<div someDir></div>
</content-query-component>
\`
})
export class MyApp { }
@NgModule({declarations: [SomeDirective, ContentQueryComponent, MyApp]})
export class MyModule { }
`
}
};
const ContentQueryComponentDefinition = `
ContentQueryComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: ContentQueryComponent,
selectors: [["content-query-component"]],
factory: function ContentQueryComponent_Factory(t) {
return new (t || ContentQueryComponent)();
},
contentQueries: function ContentQueryComponent_ContentQueries(rf, ctx, dirIndex) {
if (rf & 1) {
$r3$.ɵstaticContentQuery(dirIndex, SomeDirective, true, null);
$r3$.ɵcontentQuery(dirIndex, $ref0$, true, null);
}
if (rf & 2) {
var $tmp$;
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadContentQuery())) && (ctx.someDir = $tmp$.first));
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadContentQuery())) && (ctx.foo = $tmp$.first));
}
},
ngContentSelectors: $_c1$,
consts: 2,
vars: 0,
template: function ContentQueryComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵprojectionDef();
$r3$.ɵelementStart(0, "div");
$r3$.ɵprojection(1);
$r3$.ɵelementEnd();
}
},
encapsulation: 2
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, ContentQueryComponentDefinition, 'Invalid ContentQuery declaration');
});
it('should support content queries with read tokens specified', () => {
const files = {
app: {
...directive,
'content_query.component.ts': `
import {Component, ContentChild, ContentChildren, NgModule, QueryList, ElementRef, TemplateRef} from '@angular/core';
import {SomeDirective} from './some.directive';
@Component({
selector: 'content-query-component',
template: \`
<div someDir></div>
<div #myRef></div>
<div #myRef1></div>
\`
})
export class ContentQueryComponent {
@ContentChild('myRef', {read: TemplateRef}) myRef: TemplateRef;
@ContentChildren('myRef1, myRef2, myRef3', {read: ElementRef}) myRefs: QueryList<ElementRef>;
@ContentChild(SomeDirective, {read: ElementRef}) someDir: ElementRef;
@ContentChildren(SomeDirective, {read: TemplateRef}) someDirs: QueryList<TemplateRef>;
}
@NgModule({declarations: [ContentQueryComponent]})
export class MyModule {}
`
}
};
const ContentQueryComponentDefinition = `
const $e0_attrs$ = ["myRef"];
const $e1_attrs$ = ["myRef1", "myRef2", "myRef3"];
ContentQueryComponent.ngComponentDef = $r3$.ɵdefineComponent({
contentQueries: function ContentQueryComponent_ContentQueries(rf, ctx, dirIndex) {
if (rf & 1) {
$r3$.ɵcontentQuery(dirIndex, $e0_attrs$, true, TemplateRef);
$r3$.ɵcontentQuery(dirIndex, SomeDirective, true, ElementRef);
$r3$.ɵcontentQuery(dirIndex, $e1_attrs$, false, ElementRef);
$r3$.ɵcontentQuery(dirIndex, SomeDirective, false, TemplateRef);
}
if (rf & 2) {
var $tmp$;
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadContentQuery())) && (ctx.myRef = $tmp$.first));
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadContentQuery())) && (ctx.someDir = $tmp$.first));
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadContentQuery())) && (ctx.myRefs = $tmp$));
($r3$.ɵqueryRefresh(($tmp$ = $r3$.ɵloadContentQuery())) && (ctx.someDirs = $tmp$));
}
},
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, ContentQueryComponentDefinition, 'Invalid ContentQuery declaration');
});
it('should throw error if content queries share a property with inputs', () => {
const files = {
app: {
...directive,
'content_query.ts': `
import {Component, ContentChild, Input, NgModule} from '@angular/core';
@Component({
selector: 'content-query-component',
template: \`
<div><ng-content></ng-content></div>
\`
})
export class ContentQueryComponent {
@Input() @ContentChild('foo') foo: any;
}
@Component({
selector: 'my-app',
template: \`
<content-query-component>
<div #foo></div>
</content-query-component>
\`
})
export class MyApp { }
@NgModule({declarations: [ContentQueryComponent, MyApp]})
export class MyModule { }
`
}
};
expect(() => compile(files, angularFiles))
.toThrowError(/Cannot combine @Input decorators with query decorators/);
});
});
describe('pipes', () => {
it('should render pipes', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule, Pipe, PipeTransform, OnDestroy} from '@angular/core';
@Pipe({
name: 'myPipe',
pure: false
})
export class MyPipe implements PipeTransform,
OnDestroy {
transform(value: any, ...args: any[]) { return value; }
ngOnDestroy(): void { }
}
@Pipe({
name: 'myPurePipe',
pure: true,
})
export class MyPurePipe implements PipeTransform {
transform(value: any, ...args: any[]) { return value; }
}
@Component({
selector: 'my-app',
template: '{{name | myPipe:size | myPurePipe:size }}<p>{{ name | myPipe:1:2:3:4:5 }} {{ name ? 1 : 2 | myPipe }}</p>'
})
export class MyApp {
name = 'World';
size = 0;
}
@NgModule({declarations:[MyPipe, MyPurePipe, MyApp]})
export class MyModule {}
`
}
};
const MyPipeDefinition = `
MyPipe.ngPipeDef = $r3$.ɵdefinePipe({
name: "myPipe",
type: MyPipe,
factory: function MyPipe_Factory(t) { return new (t || MyPipe)(); },
pure: false
});
`;
const MyPurePipeDefinition = `
MyPurePipe.ngPipeDef = $r3$.ɵdefinePipe({
name: "myPurePipe",
type: MyPurePipe,
factory: function MyPurePipe_Factory(t) { return new (t || MyPurePipe)(); },
pure: true
});`;
const MyAppDefinition = `
const $c0$ = function ($a0$) {
return [$a0$, 1, 2, 3, 4, 5];
};
// ...
MyApp.ngComponentDef = $r3$.ɵdefineComponent({
type: MyApp,
selectors: [["my-app"]],
factory: function MyApp_Factory(t) { return new (t || MyApp)(); },
consts: 7,
vars: 20,
template: function MyApp_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵtext(0);
$r3$.ɵpipe(1, "myPurePipe");
$r3$.ɵpipe(2, "myPipe");
$r3$.ɵelementStart(3, "p");
$r3$.ɵtext(4);
$r3$.ɵpipe(5, "myPipe");
$r3$.ɵpipe(6, "myPipe");
$r3$.ɵelementEnd();
}
if (rf & 2) {
$r3$.ɵtextBinding(0, $r3$.ɵinterpolation1("", $r3$.ɵpipeBind2(1, 3, $r3$.ɵpipeBind2(2, 6, ctx.name, ctx.size), ctx.size), ""));
$r3$.ɵflushHooksUpTo(4);
$r3$.ɵtextBinding(4, $r3$.ɵinterpolation2("", $r3$.ɵpipeBindV(5, 9, $r3$.ɵpureFunction1(18, $c0$, ctx.name)), " ", (ctx.name ? 1 : $r3$.ɵpipeBind1(6, 16, 2)), ""));
}
},
pipes: [MyPurePipe, MyPipe],
encapsulation: 2
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, MyPipeDefinition, 'Invalid pipe definition');
expectEmit(source, MyPurePipeDefinition, 'Invalid pure pipe definition');
expectEmit(source, MyAppDefinition, 'Invalid MyApp definition');
});
it('should use appropriate function for a given no of pipe arguments', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule, Pipe, PipeTransform, OnDestroy} from '@angular/core';
@Pipe({
name: 'myPipe',
pure: false
})
export class MyPipe implements PipeTransform,
OnDestroy {
transform(value: any, ...args: any[]) { return value; }
ngOnDestroy(): void { }
}
@Component({
selector: 'my-app',
template: '0:{{name | myPipe}}1:{{name | myPipe:1}}2:{{name | myPipe:1:2}}3:{{name | myPipe:1:2:3}}4:{{name | myPipe:1:2:3:4}}'
})
export class MyApp {
}
@NgModule({declarations:[MyPipe, MyApp]})
export class MyModule {}
`
}
};
const MyAppDefinition = `
// ...
MyApp.ngComponentDef = $r3$.ɵdefineComponent({
type: MyApp,
selectors: [["my-app"]],
factory: function MyApp_Factory(t) { return new (t || MyApp)(); },
consts: 6,
vars: 27,
template: function MyApp_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵtext(0);
$r3$.ɵpipe(1, "myPipe");
$r3$.ɵpipe(2, "myPipe");
$r3$.ɵpipe(3, "myPipe");
$r3$.ɵpipe(4, "myPipe");
$r3$.ɵpipe(5, "myPipe");
}
if (rf & 2) {
$r3$.ɵtextBinding(0, $r3$.ɵinterpolation5(
"0:", i0.ɵpipeBind1(1, 5, ctx.name),
"1:", i0.ɵpipeBind2(2, 7, ctx.name, 1),
"2:", i0.ɵpipeBind3(3, 10, ctx.name, 1, 2),
"3:", i0.ɵpipeBind4(4, 14, ctx.name, 1, 2, 3),
"4:", i0.ɵpipeBindV(5, 19, $r3$.ɵpureFunction1(25, $c0$, ctx.name)),
""
));
}
},
pipes: [MyPipe],
encapsulation: 2
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, MyAppDefinition, 'Invalid MyApp definition');
});
});
it('local reference', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({selector: 'my-component', template: '<input #user>Hello {{user.value}}!'})
export class MyComponent {}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
const MyComponentDefinition = `
const $c1$ = ["user", ""];
MyComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: MyComponent,
selectors: [["my-component"]],
factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); },
consts: 3,
vars: 1,
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelement(0, "input", null, $c1$);
$r3$.ɵtext(2);
}
if (rf & 2) {
const $user$ = $r3$.ɵreference(1);
$r3$.ɵflushHooksUpTo(2);
$r3$.ɵtextBinding(2, $r3$.ɵinterpolation1("Hello ", $user$.value, "!"));
}
},
encapsulation: 2
});
`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, MyComponentDefinition, 'Incorrect MyComponent.ngComponentDef');
});
it('local references in nested views', () => {
const files = {
app: {
'spec.ts': `
import {Component, Directive, NgModule, TemplateRef} from '@angular/core';
@Directive({selector: '[if]'})
export class IfDirective {
constructor(template: TemplateRef<any>) { }
}
@Component({
selector: 'my-component',
template: \`
<div #foo></div>
{{foo}}
<div *if>
{{foo}}-{{bar}}
<span *if>{{foo}}-{{bar}}-{{baz}}</span>
<span #bar></span>
</div>
<div #baz></div>
\`
})
export class MyComponent {}
@NgModule({declarations: [IfDirective, MyComponent]})
export class MyModule {}
`
}
};
const MyComponentDefinition = `
const $c1$ = ["foo", ""];
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
const $c2$ = [${AttributeMarker.Template}, "if"];
const $c3$ = ["baz", ""];
const $c4$ = ["bar", ""];
function MyComponent_div_3_span_2_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelementStart(0, "span");
$r3$.ɵtext(1);
$r3$.ɵelementEnd();
}
if (rf & 2) {
$r3$.ɵnextContext();
const $bar$ = $r3$.ɵreference(4);
$r3$.ɵnextContext();
const $foo$ = $r3$.ɵreference(1);
const $baz$ = $r3$.ɵreference(5);
$r3$.ɵflushHooksUpTo(1);
$r3$.ɵtextBinding(1, $r3$.ɵinterpolation3("", $foo$, "-", $bar$, "-", $baz$, ""));
}
}
function MyComponent_div_3_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelementStart(0, "div");
$r3$.ɵtext(1);
$r3$.ɵtemplate(2, MyComponent_div_3_span_2_Template, 2, 3, "span", $c2$);
$r3$.ɵelement(3, "span", null, $c4$);
$r3$.ɵelementEnd();
}
if (rf & 2) {
const $bar$ = $r3$.ɵreference(4);
$r3$.ɵnextContext();
const $foo$ = $r3$.ɵreference(1);
$r3$.ɵflushHooksUpTo(1);
$r3$.ɵtextBinding(1, $r3$.ɵinterpolation2(" ", $foo$, "-", $bar$, " "));
}
}
MyComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: MyComponent,
selectors: [["my-component"]],
factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); },
consts: 6,
vars: 1,
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelement(0, "div", null, $c1$);
$r3$.ɵtext(2);
$r3$.ɵtemplate(3, MyComponent_div_3_Template, 5, 2, "div", $c2$);
$r3$.ɵelement(4, "div", null, $c3$);
}
if (rf & 2) {
const $foo$ = $r3$.ɵreference(1);
$r3$.ɵflushHooksUpTo(2);
$r3$.ɵtextBinding(2, $r3$.ɵinterpolation1(" ", $foo$, " "));
}
},
directives:[IfDirective],
encapsulation: 2
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, MyComponentDefinition, 'Incorrect MyComponent.ngComponentDef');
});
it('should support local refs mixed with context assignments', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`
<div *ngFor="let item of items">
<div #foo></div>
<span *ngIf="showing">
{{ foo }} - {{ item }}
</span>
</div>\`
})
export class MyComponent {}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
const template = `
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
const $c0$ = [${AttributeMarker.Template}, "ngFor", "ngForOf"];
const $c1$ = ["foo", ""];
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
const $c2$ = [${AttributeMarker.Template}, "ngIf"];
function MyComponent_div_0_span_3_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵelementStart(0, "span");
$i0$.ɵtext(1);
$i0$.ɵelementEnd();
}
if (rf & 2) {
const $item$ = $i0$.ɵnextContext().$implicit;
const $foo$ = $i0$.ɵreference(2);
$r3$.ɵflushHooksUpTo(1);
$i0$.ɵtextBinding(1, $i0$.ɵinterpolation2(" ", $foo$, " - ", $item$, " "));
}
}
function MyComponent_div_0_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵelementStart(0, "div");
$i0$.ɵelement(1, "div", null, $c1$);
$i0$.ɵtemplate(3, MyComponent_div_0_span_3_Template, 2, 2, "span", $c2$);
$i0$.ɵelementEnd();
}
if (rf & 2) {
const $app$ = $i0$.ɵnextContext();
$r3$.ɵflushHooksUpTo(3);
$i0$.ɵelementProperty(3, "ngIf", $i0$.ɵbind($app$.showing));
}
}
// ...
template:function MyComponent_Template(rf, ctx){
if (rf & 1) {
$i0$.ɵtemplate(0, MyComponent_div_0_Template, 4, 1, "div", $c0$);
}
if (rf & 2) {
$i0$.ɵelementProperty(0, "ngForOf", $i0$.ɵbind(ctx.items));
}
}`;
const result = compile(files, angularFiles);
expectEmit(result.source, template, 'Incorrect template');
});
describe('lifecycle hooks', () => {
const files = {
app: {
'spec.ts': `
import {Component, Input, NgModule} from '@angular/core';
let events: string[] = [];
@Component({selector: 'lifecycle-comp', template: ''})
export class LifecycleComp {
@Input('name') nameMin: string;
ngOnChanges() { events.push('changes' + this.nameMin); }
ngOnInit() { events.push('init' + this.nameMin); }
ngDoCheck() { events.push('check' + this.nameMin); }
ngAfterContentInit() { events.push('content init' + this.nameMin); }
ngAfterContentChecked() { events.push('content check' + this.nameMin); }
ngAfterViewInit() { events.push('view init' + this.nameMin); }
ngAfterViewChecked() { events.push('view check' + this.nameMin); }
ngOnDestroy() { events.push(this.nameMin); }
}
@Component({
selector: 'simple-layout',
template: \`
<lifecycle-comp [name]="name1"></lifecycle-comp>
<lifecycle-comp [name]="name2"></lifecycle-comp>
\`
})
export class SimpleLayout {
name1 = '1';
name2 = '2';
}
@NgModule({declarations: [LifecycleComp, SimpleLayout]})
export class LifecycleModule {}
`
}
};
it('should gen hooks with a few simple components', () => {
const LifecycleCompDefinition = `
LifecycleComp.ngComponentDef = $r3$.ɵdefineComponent({
type: LifecycleComp,
selectors: [["lifecycle-comp"]],
factory: function LifecycleComp_Factory(t) { return new (t || LifecycleComp)(); },
inputs: {nameMin: ["name", "nameMin"]},
features: [$r3$.ɵNgOnChangesFeature()],
consts: 0,
vars: 0,
template: function LifecycleComp_Template(rf, ctx) {},
encapsulation: 2
});`;
const SimpleLayoutDefinition = `
SimpleLayout.ngComponentDef = $r3$.ɵdefineComponent({
type: SimpleLayout,
selectors: [["simple-layout"]],
factory: function SimpleLayout_Factory(t) { return new (t || SimpleLayout)(); },
consts: 2,
vars: 2,
template: function SimpleLayout_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelement(0, "lifecycle-comp", $e0_attrs$);
$r3$.ɵelement(1, "lifecycle-comp", $e1_attrs$);
}
if (rf & 2) {
$r3$.ɵelementProperty(0, "name", $r3$.ɵbind(ctx.name1));
$r3$.ɵflushHooksUpTo(1);
$r3$.ɵelementProperty(1, "name", $r3$.ɵbind(ctx.name2));
}
},
directives: [LifecycleComp],
encapsulation: 2
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, LifecycleCompDefinition, 'Invalid LifecycleComp definition');
expectEmit(source, SimpleLayoutDefinition, 'Invalid SimpleLayout definition');
});
});
describe('template variables', () => {
const shared = {
shared: {
'for_of.ts': `
import {Directive, Input, SimpleChanges, TemplateRef, ViewContainerRef} from '@angular/core';
export interface ForOfContext {
$implicit: any;
index: number;
even: boolean;
odd: boolean;
}
@Directive({selector: '[forOf]'})
export class ForOfDirective {
private previous: any[];
constructor(private view: ViewContainerRef, private template: TemplateRef<any>) {}
@Input() forOf: any[];
ngOnChanges(simpleChanges: SimpleChanges) {
if ('forOf' in simpleChanges) {
this.update();
}
}
ngDoCheck(): void {
const previous = this.previous;
const current = this.forOf;
if (!previous || previous.length != current.length ||
previous.some((value: any, index: number) => current[index] !== previous[index])) {
this.update();
}
}
private update() {
// TODO(chuckj): Not implemented yet
// this.view.clear();
if (this.forOf) {
const current = this.forOf;
for (let i = 0; i < current.length; i++) {
const context = {$implicit: current[i], index: i, even: i % 2 == 0, odd: i % 2 == 1};
// TODO(chuckj): Not implemented yet
// this.view.createEmbeddedView(this.template, context);
}
this.previous = [...this.forOf];
}
}
}
`
}
};
it('should support embedded views in the SVG namespace', () => {
const files = {
app: {
...shared,
'spec.ts': `
import {Component, NgModule} from '@angular/core';
import {ForOfDirective} from './shared/for_of';
@Component({
selector: 'my-component',
template: \`<svg><g *for="let item of items"><circle></circle></g></svg>\`
})
export class MyComponent {
items = [{ data: 42 }, { data: 42 }];
}
@NgModule({
declarations: [MyComponent, ForOfDirective]
})
export class MyModule {}
`
}
};
// TODO(benlesh): Enforce this when the directives are specified
const ForDirectiveDefinition = `
ForOfDirective.ngDirectiveDef = $r3$.ɵdefineDirective({
type: ForOfDirective,
selectors: [["", "forOf", ""]],
factory: function ForOfDirective_Factory(t) {
return new (t || ForOfDirective)($r3$.ɵdirectiveInject(ViewContainerRef), $r3$.ɵdirectiveInject(TemplateRef));
},
features: [$r3$.ɵNgOnChangesFeature()],
inputs: {forOf: "forOf"}
});
`;
const MyComponentDefinition = `
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
const $t1_attrs$ = [${AttributeMarker.Template}, "for", "forOf"];
function MyComponent__svg_g_1_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵnamespaceSVG();
$r3$.ɵelementStart(0,"g");
$r3$.ɵelement(1,"circle");
$r3$.ɵelementEnd();
}
}
MyComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: MyComponent,
selectors: [["my-component"]],
factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); },
consts: 2,
vars: 1,
template: function MyComponent_Template(rf, ctx){
if (rf & 1) {
$r3$.ɵnamespaceSVG();
$r3$.ɵelementStart(0,"svg");
$r3$.ɵtemplate(1, MyComponent__svg_g_1_Template, 2, 0, "g", $t1_attrs$);
$r3$.ɵelementEnd();
}
if (rf & 2) {
$r3$.ɵflushHooksUpTo(1);
$r3$.ɵelementProperty(1,"forOf",$r3$.ɵbind(ctx.items));
}
},
directives: function() { return [ForOfDirective]; },
encapsulation: 2
});
`;
const result = compile(files, angularFiles);
const source = result.source;
// TODO(benlesh): Enforce this when the directives are specified
// expectEmit(source, ForDirectiveDefinition, 'Invalid directive definition');
expectEmit(source, MyComponentDefinition, 'Invalid component definition');
});
it('should support a let variable and reference', () => {
const files = {
app: {
...shared,
'spec.ts': `
import {Component, NgModule} from '@angular/core';
import {ForOfDirective} from './shared/for_of';
@Component({
selector: 'my-component',
template: \`<ul><li *for="let item of items">{{item.name}}</li></ul>\`
})
export class MyComponent {
items = [{name: 'one'}, {name: 'two'}];
}
@NgModule({
declarations: [MyComponent, ForOfDirective]
})
export class MyModule {}
`
}
};
// TODO(chuckj): Enforce this when the directives are specified
const ForDirectiveDefinition = `
ForOfDirective.ngDirectiveDef = $r3$.ɵdefineDirective({
type: ForOfDirective,
selectors: [["", "forOf", ""]],
factory: function ForOfDirective_Factory(t) {
return new (t || ForOfDirective)($r3$.ɵdirectiveInject(ViewContainerRef), $r3$.ɵdirectiveInject(TemplateRef));
},
features: [$r3$.ɵNgOnChangesFeature()],
inputs: {forOf: "forOf"}
});
`;
const MyComponentDefinition = `
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
const $t1_attrs$ = [${AttributeMarker.Template}, "for", "forOf"];
function MyComponent_li_1_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelementStart(0, "li");
$r3$.ɵtext(1);
$r3$.ɵelementEnd();
}
if (rf & 2) {
const $item$ = ctx.$implicit;
$r3$.ɵflushHooksUpTo(1);
$r3$.ɵtextBinding(1, $r3$.ɵinterpolation1("", $item$.name, ""));
}
}
MyComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: MyComponent,
selectors: [["my-component"]],
factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); },
consts: 2,
vars: 1,
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelementStart(0, "ul");
$r3$.ɵtemplate(1, MyComponent_li_1_Template, 2, 1, "li", $t1_attrs$);
$r3$.ɵelementEnd();
}
if (rf & 2) {
$r3$.ɵflushHooksUpTo(1);
$r3$.ɵelementProperty(1, "forOf", $r3$.ɵbind(ctx.items));
}
},
directives: function() { return [ForOfDirective]; },
encapsulation: 2
});
`;
const result = compile(files, angularFiles);
const source = result.source;
// TODO(chuckj): Enforce this when the directives are specified
// expectEmit(source, ForDirectiveDefinition, 'Invalid directive definition');
expectEmit(source, MyComponentDefinition, 'Invalid component definition');
});
it('should support accessing parent template variables', () => {
const files = {
app: {
...shared,
'spec.ts': `
import {Component, NgModule} from '@angular/core';
import {ForOfDirective} from './shared/for_of';
@Component({
selector: 'my-component',
template: \`
<ul>
<li *for="let item of items">
<div>{{item.name}}</div>
<ul>
<li *for="let info of item.infos">
{{item.name}}: {{info.description}}
</li>
</ul>
</li>
</ul>\`
})
export class MyComponent {
items = [
{name: 'one', infos: [{description: '11'}, {description: '12'}]},
{name: 'two', infos: [{description: '21'}, {description: '22'}]}
];
}
@NgModule({
declarations: [MyComponent, ForOfDirective]
})
export class MyModule {}
`
}
};
const MyComponentDefinition = `
fix(ivy): match attribute selectors for content projection with inline-templates (#29041) The content projection mechanism is static, in that it only looks at the static template nodes before directives are matched and change detection is run. When you have a selector-based content projection the selection is based on nodes that are available in the template. For example: ``` <ng-content selector="[some-attr]"></ng-content> ``` would match ``` <div some-attr="..."></div> ``` If you have an inline-template in your projected nodes. For example: ``` <div *ngIf="..." some-attr="..."></div> ``` This gets pre-parsed and converted to a canonical form. For example: ``` <ng-template [ngIf]="..."> <div some-attr=".."></div> </ng-template> ``` Note that only structural attributes (e.g. `*ngIf`) stay with the `<ng-template>` node. The other attributes move to the contained element inside the template. When this happens in ivy, the ng-template content is removed from the component template function and is compiled into its own template function. But this means that the information about the attributes that were on the content are lost and the projection selection mechanism is unable to match the original `<div *ngIf="..." some-attr>`. This commit adds support for this in ivy. Attributes are separated into three groups (Bindings, Templates and "other"). For inline-templates the Bindings and "other" types are hoisted back from the contained node to the `template()` instruction, so that they can be used in content projection matching. PR Close #29041
2019-03-07 03:31:31 -05:00
const $t4_attrs$ = [${AttributeMarker.Template}, "for", "forOf"];
function MyComponent_li_1_li_4_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelementStart(0, "li");
$r3$.ɵtext(1);
$r3$.ɵelementEnd();
}
if (rf & 2) {
const $info$ = ctx.$implicit;
const $item$ = $r3$.ɵnextContext().$implicit;
$r3$.ɵflushHooksUpTo(1);
$r3$.ɵtextBinding(1, $r3$.ɵinterpolation2(" ", $item$.name, ": ", $info$.description, " "));
}
}
function MyComponent_li_1_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelementStart(0, "li");
$r3$.ɵelementStart(1, "div");
$r3$.ɵtext(2);
$r3$.ɵelementEnd();
$r3$.ɵelementStart(3, "ul");
$r3$.ɵtemplate(4, MyComponent_li_1_li_4_Template, 2, 2, "li", $t4_attrs$);
$r3$.ɵelementEnd();
$r3$.ɵelementEnd();
}
if (rf & 2) {
const $item$ = ctx.$implicit;
$r3$.ɵflushHooksUpTo(2);
$r3$.ɵtextBinding(2, $r3$.ɵinterpolation1("", IDENT.name, ""));
$r3$.ɵflushHooksUpTo(4);
$r3$.ɵelementProperty(4, "forOf", $r3$.ɵbind(IDENT.infos));
}
}
MyComponent.ngComponentDef = $r3$.ɵdefineComponent({
type: MyComponent,
selectors: [["my-component"]],
factory: function MyComponent_Factory(t) { return new (t || MyComponent)(); },
consts: 2,
vars: 1,
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵelementStart(0, "ul");
$r3$.ɵtemplate(1, MyComponent_li_1_Template, 5, 2, "li", $c1$);
$r3$.ɵelementEnd();
}
if (rf & 2) {
$r3$.ɵflushHooksUpTo(1);
$r3$.ɵelementProperty(1, "forOf", $r3$.ɵbind(ctx.items));
}
},
directives: function () { return [ForOfDirective]; },
encapsulation: 2
});`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, MyComponentDefinition, 'Invalid component definition');
});
});
it('should instantiate directives in a closure when they are forward referenced', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule, Directive} from '@angular/core';
@Component({
selector: 'host-binding-comp',
template: \`
<my-forward-directive></my-forward-directive>
\`
})
export class HostBindingComp {
}
@Directive({
selector: 'my-forward-directive'
})
class MyForwardDirective {}
@NgModule({declarations: [HostBindingComp, MyForwardDirective]})
export class MyModule {}
`
}
};
const MyAppDefinition = `
directives: function () { return [MyForwardDirective]; }
`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, MyAppDefinition, 'Invalid component definition');
});
it('should instantiate pipes in a closure when they are forward referenced', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule, Pipe} from '@angular/core';
@Component({
selector: 'host-binding-comp',
template: \`
<div [attr.style]="{} | my_forward_pipe">...</div>
\`
})
export class HostBindingComp {
}
@Pipe({
name: 'my_forward_pipe'
})
class MyForwardPipe {}
@NgModule({declarations: [HostBindingComp, MyForwardPipe]})
export class MyModule {}
`
}
};
const MyAppDefinition = `
pipes: function () { return [MyForwardPipe]; }
`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, MyAppDefinition, 'Invalid component definition');
});
it('should split multiple `exportAs` values into an array', () => {
const files = {
app: {
'spec.ts': `
import {Directive, NgModule} from '@angular/core';
@Directive({selector: '[some-directive]', exportAs: 'someDir, otherDir'})
export class SomeDirective {}
@NgModule({declarations: [SomeDirective]})
export class MyModule{}
`
}
};
// SomeDirective definition should be:
const SomeDirectiveDefinition = `
SomeDirective.ngDirectiveDef = $r3$.ɵdefineDirective({
type: SomeDirective,
selectors: [["", "some-directive", ""]],
factory: function SomeDirective_Factory(t) {return new (t || SomeDirective)(); },
exportAs: ["someDir", "otherDir"]
});
`;
const result = compile(files, angularFiles);
const source = result.source;
expectEmit(source, SomeDirectiveDefinition, 'Incorrect SomeDirective.ngDirectiveDef');
});
});
describe('inherited base classes', () => {
it('should add ngBaseDef if one or more @Input is present', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule, Input} from '@angular/core';
export class BaseClass {
@Input()
input1 = 'test';
@Input('alias2')
input2 = 'whatever';
}
@Component({
selector: 'my-component',
template: \`<div>{{input1}} {{input2}}</div>\`
})
export class MyComponent extends BaseClass {
}
@NgModule({
declarations: [MyComponent]
})
export class MyModule {}
`
}
};
const expectedOutput = `
// ...
BaseClass.ngBaseDef = i0.ɵdefineBase({
inputs: {
input1: "input1",
input2: ["alias2", "input2"]
}
});
// ...
`;
const result = compile(files, angularFiles);
expectEmit(result.source, expectedOutput, 'Invalid base definition');
});
it('should add ngBaseDef if one or more @Output is present', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule, Output, EventEmitter} from '@angular/core';
export class BaseClass {
@Output()
output1 = new EventEmitter<string>();
@Output()
output2 = new EventEmitter<string>();
clicked() {
this.output1.emit('test');
this.output2.emit('test');
}
}
@Component({
selector: 'my-component',
template: \`<button (click)="clicked()">Click Me</button>\`
})
export class MyComponent extends BaseClass {
}
@NgModule({
declarations: [MyComponent]
})
export class MyModule {}
`
}
};
const expectedOutput = `
// ...
BaseClass.ngBaseDef = i0.ɵdefineBase({
outputs: {
output1: "output1",
output2: "output2"
}
});
// ...
`;
const result = compile(files, angularFiles);
expectEmit(result.source, expectedOutput, 'Invalid base definition');
});
it('should add ngBaseDef if a mixture of @Input and @Output props are present', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule, Input, Output, EventEmitter} from '@angular/core';
export class BaseClass {
@Output()
output1 = new EventEmitter<string>();
@Output()
output2 = new EventEmitter<string>();
@Input()
input1 = 'test';
@Input('whatever')
input2 = 'blah';
clicked() {
this.output1.emit('test');
this.output2.emit('test');
}
}
@Component({
selector: 'my-component',
template: \`<button (click)="clicked()">Click Me</button>\`
})
export class MyComponent extends BaseClass {
}
@NgModule({
declarations: [MyComponent]
})
export class MyModule {}
`
}
};
const expectedOutput = `
// ...
BaseClass.ngBaseDef = i0.ɵdefineBase({
inputs: {
input1: "input1",
input2: ["whatever", "input2"]
},
outputs: {
output1: "output1",
output2: "output2"
}
});
// ...
`;
const result = compile(files, angularFiles);
expectEmit(result.source, expectedOutput, 'Invalid base definition');
});
it('should NOT add ngBaseDef if @Component is present', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule, Output, EventEmitter} from '@angular/core';
@Component({
selector: 'whatever',
template: '<button (click)="clicked()">Click {{input1}}</button>'
})
export class BaseClass {
@Output()
output1 = new EventEmitter<string>();
@Input()
input1 = 'whatever';
clicked() {
this.output1.emit('test');
}
}
@Component({
selector: 'my-component',
template: \`<div>What is this developer doing?</div>\`
})
export class MyComponent extends BaseClass {
}
@NgModule({
declarations: [MyComponent]
})
export class MyModule {}
`
}
};
const result = compile(files, angularFiles);
expect(result.source).not.toContain('ngBaseDef');
});
it('should NOT add ngBaseDef if @Directive is present', () => {
const files = {
app: {
'spec.ts': `
import {Component, Directive, NgModule, Output, EventEmitter} from '@angular/core';
@Directive({
selector: 'whatever',
})
export class BaseClass {
@Output()
output1 = new EventEmitter<string>();
@Input()
input1 = 'whatever';
clicked() {
this.output1.emit('test');
}
}
@Component({
selector: 'my-component',
template: '<button (click)="clicked()">Click {{input1}}</button>'
})
export class MyComponent extends BaseClass {
}
@NgModule({
declarations: [MyComponent]
})
export class MyModule {}
`
}
};
const result = compile(files, angularFiles);
expect(result.source).not.toContain('ngBaseDef');
});
});
});