refactor(ivy): remove unnecessary fac wrapper (#34076)

For injectables, we currently generate a factory function in the
injectable def (prov) that delegates to the factory function in
the factory def (fac). It looks something like this:

```
factory: function(t) { return Svc.fac(t); }
```

The extra wrapper function is unnecessary since the args for
the factory functions are the same. This commit changes the
compiler to generate this instead:

```
factory: Svc.fac
```

Because we are generating less code for each injectable, we
should see some modest code size savings. AIO's main bundle
is about 1 KB smaller.

PR Close #34076
This commit is contained in:
Kara Erickson 2019-11-27 15:52:34 -08:00 committed by Miško Hevery
parent 02958c07f6
commit 755d2d572f
7 changed files with 68 additions and 24 deletions

View File

@ -12,7 +12,7 @@
"master": {
"uncompressed": {
"runtime-es2015": 2987,
"main-es2015": 463671,
"main-es2015": 462449,
"polyfills-es2015": 52503
}
}

View File

@ -3,7 +3,7 @@
"master": {
"uncompressed": {
"runtime-es2015": 1485,
"main-es2015": 142186,
"main-es2015": 141476,
"polyfills-es2015": 36808
}
}
@ -21,7 +21,7 @@
"master": {
"uncompressed": {
"runtime-es2015": 1485,
"main-es2015": 148320,
"main-es2015": 147610,
"polyfills-es2015": 36808
}
}

View File

@ -94,6 +94,11 @@ export class DecorationAnalyzer {
new DirectiveDecoratorHandler(
this.reflectionHost, this.evaluator, this.fullRegistry, NOOP_DEFAULT_IMPORT_RECORDER,
this.isCore, /* annotateForClosureCompiler */ false),
// Pipe handler must be before injectable handler in list so pipe factories are printed
// before injectable factories (so injectable factories can delegate to them)
new PipeDecoratorHandler(
this.reflectionHost, this.evaluator, this.metaRegistry, NOOP_DEFAULT_IMPORT_RECORDER,
this.isCore),
new InjectableDecoratorHandler(
this.reflectionHost, NOOP_DEFAULT_IMPORT_RECORDER, this.isCore,
/* strictCtorDeps */ false, /* errorOnDuplicateProv */ false),
@ -101,9 +106,6 @@ export class DecorationAnalyzer {
this.reflectionHost, this.evaluator, this.fullMetaReader, this.fullRegistry,
this.scopeRegistry, this.referencesRegistry, this.isCore, /* routeAnalyzer */ null,
this.refEmitter, NOOP_DEFAULT_IMPORT_RECORDER, /* annotateForClosureCompiler */ false),
new PipeDecoratorHandler(
this.reflectionHost, this.evaluator, this.metaRegistry, NOOP_DEFAULT_IMPORT_RECORDER,
this.isCore),
];
migrations: Migration[] = [
new UndecoratedParentMigration(),

View File

@ -205,6 +205,36 @@ runInEachFileSystem(() => {
expect(countOccurrences(after, 'ɵfac')).toEqual(1);
});
// This is necessary to ensure XPipeDef.fac is defined when delegated from injectable def
it('should always generate factory def (fac) before injectable def (prov)', () => {
compileIntoFlatEs5Package('test-package', {
'/index.ts': `
import {Injectable, Pipe, PipeTransform} from '@angular/core';
@Injectable()
@Pipe({
name: 'myTestPipe'
})
export class TestClass implements PipeTransform {
transform(value: any) { return value; }
}
`,
});
mainNgcc({
basePath: '/node_modules',
targetEntryPointPath: 'test-package',
propertiesToConsider: ['main'],
});
const jsContents = fs.readFile(_(`/node_modules/test-package/index.js`));
expect(jsContents)
.toContain(
`TestClass.ɵfac = function TestClass_Factory(t) { return new (t || TestClass)(); };\n` +
`TestClass.ɵpipe = ɵngcc0.ɵɵdefinePipe({ name: "myTestPipe", type: TestClass, pure: true });\n` +
`TestClass.ɵprov = ɵngcc0.ɵɵdefineInjectable({`);
});
it('should add generic type for ModuleWithProviders and generate exports for private modules',
() => {
compileIntoApf('test-package', {

View File

@ -629,6 +629,10 @@ export class NgtscProgram implements api.Program {
new DirectiveDecoratorHandler(
this.reflector, evaluator, metaRegistry, this.defaultImportTracker, this.isCore,
this.closureCompilerEnabled),
// Pipe handler must be before injectable handler in list so pipe factories are printed
// before injectable factories (so injectable factories can delegate to them)
new PipeDecoratorHandler(
this.reflector, evaluator, metaRegistry, this.defaultImportTracker, this.isCore),
new InjectableDecoratorHandler(
this.reflector, this.defaultImportTracker, this.isCore,
this.options.strictInjectionParameters || false),
@ -636,8 +640,6 @@ export class NgtscProgram implements api.Program {
this.reflector, evaluator, this.metaReader, metaRegistry, scopeRegistry,
referencesRegistry, this.isCore, this.routeAnalyzer, this.refEmitter,
this.defaultImportTracker, this.closureCompilerEnabled, this.options.i18nInLocale),
new PipeDecoratorHandler(
this.reflector, evaluator, metaRegistry, this.defaultImportTracker, this.isCore),
];
return new IvyCompilation(

View File

@ -90,9 +90,7 @@ describe('compiler compliance: dependency injection', () => {
const def = `
MyService.ɵprov = $r3$.ɵɵdefineInjectable({
token: MyService,
factory: function(t) {
return MyService.ɵfac(t);
},
factory: MyService.ɵfac,
providedIn: null
});
`;
@ -342,16 +340,22 @@ describe('compiler compliance: dependency injection', () => {
const result = compile(files, angularFiles);
const source = result.source;
const MyPipeFactory = `
MyPipe.ɵfac = function MyPipe_Factory(t) { return new (t || MyPipe)($r3$.ɵɵdirectiveInject(Service)); };
// The prov definition must be last so MyPipe.fac is defined
const MyPipeDefs = `
MyPipe.ɵfac = function MyPipe_Factory(t) { return new (t || MyPipe)(i0.ɵɵdirectiveInject(Service)); };
MyPipe.ɵpipe = i0.ɵɵdefinePipe({ name: "myPipe", type: MyPipe, pure: true });
MyPipe.ɵprov = i0.ɵɵdefineInjectable({ token: MyPipe, factory: MyPipe.ɵfac, providedIn: null });
`;
const MyOtherPipeFactory = `
// The prov definition must be last so MyOtherPipe.fac is defined
const MyOtherPipeDefs = `
MyOtherPipe.ɵfac = function MyOtherPipe_Factory(t) { return new (t || MyOtherPipe)($r3$.ɵɵdirectiveInject(Service)); };
MyOtherPipe.ɵpipe = i0.ɵɵdefinePipe({ name: "myOtherPipe", type: MyOtherPipe, pure: true });
MyOtherPipe.ɵprov = i0.ɵɵdefineInjectable({ token: MyOtherPipe, factory: MyOtherPipe.ɵfac, providedIn: null });
`;
expectEmit(source, MyPipeFactory, 'Invalid pipe factory function');
expectEmit(source, MyOtherPipeFactory, 'Invalid pipe factory function');
expectEmit(source, MyPipeDefs, 'Invalid pipe factory function');
expectEmit(source, MyOtherPipeDefs, 'Invalid pipe factory function');
expect(source.match(/MyPipe\.ɵfac =/g) !.length).toBe(1);
expect(source.match(/MyOtherPipe\.ɵfac =/g) !.length).toBe(1);
});

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@ -68,7 +68,8 @@ export function compileInjectable(meta: R3InjectableMetadata): InjectableDef {
} else if (useClassOnSelf) {
result = compileFactoryFunction(factoryMeta);
} else {
result = delegateToFactory(meta.useClass);
result = delegateToFactory(
meta.type as o.WrappedNodeExpr<any>, meta.useClass as o.WrappedNodeExpr<any>);
}
} else if (meta.useFactory !== undefined) {
if (meta.userDeps !== undefined) {
@ -99,7 +100,8 @@ export function compileInjectable(meta: R3InjectableMetadata): InjectableDef {
expression: o.importExpr(Identifiers.inject).callFn([meta.useExisting]),
});
} else {
result = delegateToFactory(meta.internalType);
result = delegateToFactory(
meta.type as o.WrappedNodeExpr<any>, meta.internalType as o.WrappedNodeExpr<any>);
}
const token = meta.internalType;
@ -117,11 +119,15 @@ export function compileInjectable(meta: R3InjectableMetadata): InjectableDef {
};
}
function delegateToFactory(type: o.Expression) {
function delegateToFactory(type: o.WrappedNodeExpr<any>, internalType: o.WrappedNodeExpr<any>) {
return {
statements: [],
// () => type.ɵfac(t)
factory: o.fn([new o.FnParam('t', o.DYNAMIC_TYPE)], [new o.ReturnStatement(type.callMethod(
// If types are the same, we can generate `factory: type.ɵfac`
// If types are different, we have to generate a wrapper function to ensure
// the internal type has been resolved (`factory: function(t) { return type.ɵfac(t); }`)
factory: type.node === internalType.node ?
internalType.prop('ɵfac') :
o.fn([new o.FnParam('t', o.DYNAMIC_TYPE)], [new o.ReturnStatement(internalType.callMethod(
'ɵfac', [o.variable('t')]))])
};
}