angular-cn/packages/compiler-cli/test/compliance/r3_view_compiler_template_s...

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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';
describe('compiler compliance: template', () => {
const angularFiles = setup({
compileAngular: false,
compileFakeCore: true,
compileAnimations: false,
});
it('should correctly bind to context in nested template', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`
<ul *ngFor="let outer of items">
<li *ngFor="let middle of outer.items">
<div *ngFor="let inner of items"
(click)="onClick(outer, middle, inner)"
[title]="format(outer, middle, inner, component)"
>
{{format(outer, middle, inner, component)}}
</div>
</li>
</ul>\`
})
export class MyComponent {
component = this;
format(outer: any, middle: any, inner: any) { }
onClick(outer: any, middle: any, inner: any) { }
}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
// The template should look like this (where IDENT is a wild card for an identifier):
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 $c1$ = [${AttributeMarker.Bindings}, "title", "click", ${AttributeMarker.Template}, "ngFor", "ngForOf"];
const $c2$ = [${AttributeMarker.Bindings}, "title", "click"];
function MyComponent_ul_0_li_1_div_1_Template(rf, ctx) {
if (rf & 1) {
const $s$ = $i0$.ɵɵgetCurrentView();
$i0$.ɵɵelementStart(0, "div", $c2$);
$i0$.ɵɵlistener("click", function MyComponent_ul_0_li_1_div_1_Template_div_click_0_listener($event){
$i0$.ɵɵrestoreView($s$);
const $inner$ = ctx.$implicit;
const $middle$ = $i0$.ɵɵnextContext().$implicit;
const $outer$ = $i0$.ɵɵnextContext().$implicit;
const $myComp$ = $i0$.ɵɵnextContext();
return $myComp$.onClick($outer$, $middle$, $inner$);
});
$i0$.ɵɵtext(1);
$i0$.ɵɵelementEnd();
}
if (rf & 2) {
const $inner1$ = ctx.$implicit;
const $middle1$ = $i0$.ɵɵnextContext().$implicit;
const $outer1$ = $i0$.ɵɵnextContext().$implicit;
const $myComp1$ = $i0$.ɵɵnextContext();
$i0$.ɵɵselect(0);
$i0$.ɵɵproperty("title", $myComp1$.format($outer1$, $middle1$, $inner1$, $myComp1$.component));
$r3$.ɵɵselect(1);
$i0$.ɵɵtextBinding(1, $i0$.ɵɵinterpolation1(" ", $myComp1$.format($outer1$, $middle1$, $inner1$, $myComp1$.component), " "));
}
}
function MyComponent_ul_0_li_1_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵelementStart(0, "li");
$i0$.ɵɵtemplate(1, MyComponent_ul_0_li_1_div_1_Template, 2, 2, "div", $c1$);
$i0$.ɵɵelementEnd();
}
if (rf & 2) {
const $myComp2$ = $i0$.ɵɵnextContext(2);
$r3$.ɵɵselect(1);
$i0$.ɵɵproperty("ngForOf", $myComp2$.items);
}
}
function MyComponent_ul_0_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵelementStart(0, "ul");
$i0$.ɵɵtemplate(1, MyComponent_ul_0_li_1_Template, 2, 1, "li", $c0$);
$i0$.ɵɵelementEnd();
}
if (rf & 2) {
const $outer2$ = ctx.$implicit;
$r3$.ɵɵselect(1);
$i0$.ɵɵproperty("ngForOf", $outer2$.items);
}
}
// ...
template:function MyComponent_Template(rf, ctx){
if (rf & 1) {
$i0$.ɵɵtemplate(0, MyComponent_ul_0_Template, 2, 1, "ul", $c0$);
}
if (rf & 2) {
$i0$.ɵɵselect(0);
$i0$.ɵɵproperty("ngForOf", ctx.items);
}
}`;
const result = compile(files, angularFiles);
expectEmit(result.source, template, 'Incorrect template');
});
it('should correctly bind to context in nested template with many bindings', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`
<div *ngFor="let d of _data; let i = index" (click)="_handleClick(d, i)"></div>
\`
})
export class MyComponent {
_data = [1,2,3];
_handleClick(d: any, i: any) {}
}
@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 $t0_attrs$ = [${AttributeMarker.Bindings}, "click", ${AttributeMarker.Template}, "ngFor", "ngForOf"];
const $e_attrs$ = [${AttributeMarker.Bindings}, "click"];
function MyComponent_div_0_Template(rf, ctx) {
if (rf & 1) {
const $s$ = $r3$.ɵɵgetCurrentView();
$r3$.ɵɵelementStart(0, "div", $e_attrs$);
$r3$.ɵɵlistener("click", function MyComponent_div_0_Template_div_click_0_listener($event) {
$r3$.ɵɵrestoreView($s$);
const $d$ = ctx.$implicit;
const $i$ = ctx.index;
const $comp$ = $r3$.ɵɵnextContext();
return $comp$._handleClick($d$, $i$);
});
$r3$.ɵɵelementEnd();
}
}
// ...
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$r3$.ɵɵtemplate(0, MyComponent_div_0_Template, 1, 0, "div", $t0_attrs$);
}
if (rf & 2) {
$r3$.ɵɵselect(0);
$r3$.ɵɵproperty("ngForOf", ctx._data);
}
}
`;
const result = compile(files, angularFiles);
expectEmit(result.source, template, 'Incorrect template');
});
it('should support ngFor context variables', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`
<span *ngFor="let item of items; index as i">
{{ i }} - {{ item }}
</span>\`
})
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"];
function MyComponent_span_0_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵelementStart(0, "span");
$i0$.ɵɵtext(1);
$i0$.ɵɵelementEnd();
}
if (rf & 2) {
const $item$ = ctx.$implicit;
const $i$ = ctx.index;
$r3$.ɵɵselect(1);
$i0$.ɵɵtextBinding(1, $i0$.ɵɵinterpolation2(" ", $i$, " - ", $item$, " "));
}
}
// ...
template:function MyComponent_Template(rf, ctx){
if (rf & 1) {
$i0$.ɵɵtemplate(0, MyComponent_span_0_Template, 2, 2, "span", _c0);
}
if (rf & 2) {
$i0$.ɵɵselect(0);
$i0$.ɵɵproperty("ngForOf", ctx.items);
}
}`;
const result = compile(files, angularFiles);
expectEmit(result.source, template, 'Incorrect template');
});
it('should support ngFor context variables in parent views', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`
<div *ngFor="let item of items; index as i">
<span *ngIf="showing">
{{ i }} - {{ 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 $c1$ = [${AttributeMarker.Template}, "ngIf"];
function MyComponent_div_0_span_1_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵelementStart(0, "span");
$i0$.ɵɵtext(1);
$i0$.ɵɵelementEnd();
}
if (rf & 2) {
const $div$ = $i0$.ɵɵnextContext();
const $i$ = $div$.index;
const $item$ = $div$.$implicit;
$r3$.ɵɵselect(1);
$i0$.ɵɵtextBinding(1, $i0$.ɵɵinterpolation2(" ", $i$, " - ", $item$, " "));
}
}
function MyComponent_div_0_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵelementStart(0, "div");
$i0$.ɵɵtemplate(1, MyComponent_div_0_span_1_Template, 2, 2, "span", $c1$);
$i0$.ɵɵelementEnd();
}
if (rf & 2) {
const $app$ = $i0$.ɵɵnextContext();
$r3$.ɵɵselect(1);
$i0$.ɵɵproperty("ngIf", $app$.showing);
}
}
// ...
template:function MyComponent_Template(rf, ctx){
if (rf & 1) {
$i0$.ɵɵtemplate(0, MyComponent_div_0_Template, 2, 1, "div", $c0$);
}
if (rf & 2) {
$i0$.ɵɵselect(0);
$i0$.ɵɵproperty("ngForOf", ctx.items);
}
}`;
const result = compile(files, angularFiles);
expectEmit(result.source, template, 'Incorrect template');
});
it('should correctly skip contexts as needed', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`
<div *ngFor="let outer of items">
<div *ngFor="let middle of outer.items">
<div *ngFor="let inner of middle.items">
{{ middle.value }} - {{ name }}
</div>
</div>
</div>\`
})
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 = `
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"];
function MyComponent_div_0_div_1_div_1_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵelementStart(0, "div");
$i0$.ɵɵtext(1);
$i0$.ɵɵelementEnd();
}
if (rf & 2) {
const $middle$ = $i0$.ɵɵnextContext().$implicit;
const $myComp$ = $i0$.ɵɵnextContext(2);
$r3$.ɵɵselect(1);
$i0$.ɵɵtextBinding(1, $i0$.ɵɵinterpolation2(" ", $middle$.value, " - ", $myComp$.name, " "));
}
}
function MyComponent_div_0_div_1_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵelementStart(0, "div");
$i0$.ɵɵtemplate(1, MyComponent_div_0_div_1_div_1_Template, 2, 2, "div", $c0$);
$i0$.ɵɵelementEnd();
}
if (rf & 2) {
const $middle$ = ctx.$implicit;
$r3$.ɵɵselect(1);
$i0$.ɵɵproperty("ngForOf", $middle$.items);
}
}
function MyComponent_div_0_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵelementStart(0, "div");
$i0$.ɵɵtemplate(1, MyComponent_div_0_div_1_Template, 2, 1, "div", $c0$);
$i0$.ɵɵelementEnd();
}
if (rf & 2) {
const $outer$ = ctx.$implicit;
$r3$.ɵɵselect(1);
$i0$.ɵɵproperty("ngForOf", $outer$.items);
}
}
// ...
template:function MyComponent_Template(rf, ctx){
if (rf & 1) {
$i0$.ɵɵtemplate(0, MyComponent_div_0_Template, 2, 1, "div", $c0$);
}
if (rf & 2) {
$i0$.ɵɵselect(0);
$i0$.ɵɵproperty("ngForOf", ctx.items);
}
}`;
const result = compile(files, angularFiles);
expectEmit(result.source, template, 'Incorrect template');
});
it('should support <ng-template>', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`
<ng-template [boundAttr]="b" attr="l">
some-content
</ng-template>\`
})
export class MyComponent {}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
const template = `
const $c0$ = ["attr", "l", ${AttributeMarker.Bindings}, "boundAttr"];
function MyComponent_ng_template_0_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵtext(0, " some-content ");
}
}
// ...
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵtemplate(0, MyComponent_ng_template_0_Template, 1, 0, "ng-template", $c0$);
}
if (rf & 2) {
$i0$.ɵɵselect(0);
$i0$.ɵɵproperty("boundAttr", ctx.b);
}
}`;
const result = compile(files, angularFiles);
expectEmit(result.source, template, 'Incorrect template');
});
it('should support local refs on <ng-template>', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: '<ng-template #foo>some-content</ng-template>',
})
export class MyComponent {}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
const template = `
const $t0_refs$ = ["foo", ""];
function MyComponent_ng_template_0_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵtext(0, "some-content");
}
}
// ...
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵtemplate(0, MyComponent_ng_template_0_Template, 1, 0, "ng-template", null, $t0_refs$, $i0$.ɵɵtemplateRefExtractor);
}
}`;
const result = compile(files, angularFiles);
expectEmit(result.source, template, 'Incorrect template');
});
it('should support directive outputs on <ng-template>', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: '<ng-template (outDirective)="$event.doSth()"></ng-template>',
})
export class MyComponent {}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`
}
};
const template = `
const $t0_attrs$ = [${AttributeMarker.Bindings}, "outDirective"];
function MyComponent_ng_template_0_Template(rf, ctx) { }
// ...
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵtemplate(0, MyComponent_ng_template_0_Template, 0, 0, "ng-template", $t0_attrs$);
$i0$.ɵɵlistener("outDirective", function MyComponent_Template_ng_template_outDirective_0_listener($event) { return $event.doSth(); });
}
}`;
const result = compile(files, angularFiles);
expectEmit(result.source, template, 'Incorrect template');
});
it('should create unique template function names even for similar nested template structures',
() => {
const files = {
app: {
'spec1.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'a-component',
template: \`
<div *ngFor="let item of items">
<p *ngIf="item < 10">less than 10</p>
<p *ngIf="item < 10">less than 10</p>
</div>
<div *ngFor="let item of items">
<p *ngIf="item > 10">more than 10</p>
</div>
\`,
})
export class AComponent {
items = [4, 2];
}
@NgModule({declarations: [AComponent]})
export class AModule {}
`,
'spec2.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'b-component',
template: \`
<div *ngFor="let item of items">
<ng-container *ngFor="let subitem of item.subitems">
<p *ngIf="subitem < 10">less than 10</p>
<p *ngIf="subitem < 10">less than 10</p>
</ng-container>
<ng-container *ngFor="let subitem of item.subitems">
<p *ngIf="subitem < 10">less than 10</p>
</ng-container>
</div>
<div *ngFor="let item of items">
<ng-container *ngFor="let subitem of item.subitems">
<p *ngIf="subitem > 10">more than 10</p>
</ng-container>
</div>
\`,
})
export class BComponent {
items = [
{subitems: [1, 3]},
{subitems: [3, 7]},
];
}
@NgModule({declarations: [BComponent]})
export class BModule {}
`,
},
};
const result = compile(files, angularFiles);
const allTemplateFunctionsNames = (result.source.match(/function ([^\s(]+)/g) || [])
.map(x => x.slice(9))
.filter(x => x.includes('Template'))
.sort();
const uniqueTemplateFunctionNames = Array.from(new Set(allTemplateFunctionsNames));
// Expected template function:
// - 5 for AComponent's template.
// - 9 for BComponent's template.
// - 2 for the two components.
expect(allTemplateFunctionsNames.length).toBe(5 + 9 + 2);
expect(allTemplateFunctionsNames).toEqual(uniqueTemplateFunctionNames);
});
it('should create unique template function names for ng-content templates', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'a-component',
template: \`
<ng-content *ngIf="show"></ng-content>
\`,
})
export class AComponent {
show = true;
}
@Component({
selector: 'b-component',
template: \`
<ng-content *ngIf="show"></ng-content>
\`,
})
export class BComponent {
show = true;
}
@NgModule({declarations: [AComponent, BComponent]})
export class AModule {}
`
},
};
const result = compile(files, angularFiles);
const allTemplateFunctionsNames = (result.source.match(/function ([^\s(]+)/g) || [])
.map(x => x.slice(9))
.filter(x => x.includes('Template'))
.sort();
const uniqueTemplateFunctionNames = Array.from(new Set(allTemplateFunctionsNames));
// Expected template function:
// - 1 for AComponent's template.
// - 1 for BComponent's template.
// - 2 for the two components.
expect(allTemplateFunctionsNames.length).toBe(1 + 1 + 2);
expect(allTemplateFunctionsNames).toEqual(uniqueTemplateFunctionNames);
});
it('should create unique listener function names even for similar nested template structures',
() => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`
<div *ngFor="let item of items">
<p (click)="$event">{{ item }}</p>
<p (click)="$event">{{ item }}</p>
</div>
<div *ngFor="let item of items">
<p (click)="$event">{{ item }}</p>
</div>
\`,
})
export class MyComponent {
items = [4, 2];
}
@NgModule({declarations: [MyComponent]})
export class MyModule {}
`,
},
};
const result = compile(files, angularFiles);
const allListenerFunctionsNames = (result.source.match(/function ([^\s(]+)/g) || [])
.map(x => x.slice(9))
.filter(x => x.includes('listener'))
.sort();
const uniqueListenerFunctionNames = Array.from(new Set(allListenerFunctionsNames));
expect(allListenerFunctionsNames.length).toBe(3);
expect(allListenerFunctionsNames).toEqual(uniqueListenerFunctionNames);
});
it('should support pipes in template bindings', () => {
const files = {
app: {
'spec.ts': `
import {Component, NgModule} from '@angular/core';
@Component({
selector: 'my-component',
template: \`
<div *ngIf="val | pipe"></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}, "ngIf"];
function MyComponent_div_0_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵelement(0, "div");
}
}
// ...
template: function MyComponent_Template(rf, ctx) {
if (rf & 1) {
$i0$.ɵɵtemplate(0, MyComponent_div_0_Template, 1, 0, "div", $c0$);
$i0$.ɵɵpipe(1, "pipe");
} if (rf & 2) {
$i0$.ɵɵselect(0);
$i0$.ɵɵproperty("ngIf", $i0$.ɵɵpipeBind1(1, 1, ctx.val));
}
}`;
const result = compile(files, angularFiles);
expectEmit(result.source, template, 'Incorrect template');
});
});