/
ng_module.ts
591 lines (526 loc) · 23.1 KB
/
ng_module.ts
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/**
* @license
* Copyright Google LLC 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 {compileInjector, compileNgModule, CUSTOM_ELEMENTS_SCHEMA, Expression, ExternalExpr, InvokeFunctionExpr, LiteralArrayExpr, LiteralExpr, NO_ERRORS_SCHEMA, R3Identifiers, R3InjectorMetadata, R3NgModuleMetadata, R3Reference, SchemaMetadata, Statement, STRING_TYPE, WrappedNodeExpr} from '@angular/compiler';
import * as ts from 'typescript';
import {ErrorCode, FatalDiagnosticError, makeDiagnostic, makeRelatedInformation} from '../../diagnostics';
import {DefaultImportRecorder, Reference, ReferenceEmitter} from '../../imports';
import {InjectableClassRegistry, MetadataReader, MetadataRegistry} from '../../metadata';
import {PartialEvaluator, ResolvedValue} from '../../partial_evaluator';
import {ClassDeclaration, DeclarationNode, Decorator, isNamedClassDeclaration, ReflectionHost, reflectObjectLiteral, typeNodeToValueExpr} from '../../reflection';
import {NgModuleRouteAnalyzer} from '../../routing';
import {LocalModuleScopeRegistry, ScopeData} from '../../scope';
import {FactoryTracker} from '../../shims/api';
import {AnalysisOutput, CompileResult, DecoratorHandler, DetectResult, HandlerPrecedence, ResolveResult} from '../../transform';
import {getSourceFile} from '../../util/src/typescript';
import {createValueHasWrongTypeError, getProviderDiagnostics} from './diagnostics';
import {generateSetClassMetadataCall} from './metadata';
import {ReferencesRegistry} from './references_registry';
import {combineResolvers, findAngularDecorator, forwardRefResolver, getValidConstructorDependencies, isExpressionForwardReference, resolveProvidersRequiringFactory, toR3Reference, unwrapExpression, wrapFunctionExpressionsInParens, wrapTypeReference} from './util';
export interface NgModuleAnalysis {
mod: R3NgModuleMetadata;
inj: R3InjectorMetadata;
metadataStmt: Statement|null;
declarations: Reference<ClassDeclaration>[];
rawDeclarations: ts.Expression|null;
schemas: SchemaMetadata[];
imports: Reference<ClassDeclaration>[];
exports: Reference<ClassDeclaration>[];
id: Expression|null;
factorySymbolName: string;
providersRequiringFactory: Set<Reference<ClassDeclaration>>|null;
providers: ts.Expression|null;
}
export interface NgModuleResolution {
injectorImports: Expression[];
}
/**
* Compiles @NgModule annotations to ngModuleDef fields.
*
* TODO(alxhub): handle injector side of things as well.
*/
export class NgModuleDecoratorHandler implements
DecoratorHandler<Decorator, NgModuleAnalysis, NgModuleResolution> {
constructor(
private reflector: ReflectionHost, private evaluator: PartialEvaluator,
private metaReader: MetadataReader, private metaRegistry: MetadataRegistry,
private scopeRegistry: LocalModuleScopeRegistry,
private referencesRegistry: ReferencesRegistry, private isCore: boolean,
private routeAnalyzer: NgModuleRouteAnalyzer|null, private refEmitter: ReferenceEmitter,
private factoryTracker: FactoryTracker|null,
private defaultImportRecorder: DefaultImportRecorder,
private annotateForClosureCompiler: boolean,
private injectableRegistry: InjectableClassRegistry, private localeId?: string) {}
readonly precedence = HandlerPrecedence.PRIMARY;
readonly name = NgModuleDecoratorHandler.name;
detect(node: ClassDeclaration, decorators: Decorator[]|null): DetectResult<Decorator>|undefined {
if (!decorators) {
return undefined;
}
const decorator = findAngularDecorator(decorators, 'NgModule', this.isCore);
if (decorator !== undefined) {
return {
trigger: decorator.node,
decorator: decorator,
metadata: decorator,
};
} else {
return undefined;
}
}
analyze(node: ClassDeclaration, decorator: Readonly<Decorator>):
AnalysisOutput<NgModuleAnalysis> {
const name = node.name.text;
if (decorator.args === null || decorator.args.length > 1) {
throw new FatalDiagnosticError(
ErrorCode.DECORATOR_ARITY_WRONG, Decorator.nodeForError(decorator),
`Incorrect number of arguments to @NgModule decorator`);
}
// @NgModule can be invoked without arguments. In case it is, pretend as if a blank object
// literal was specified. This simplifies the code below.
const meta = decorator.args.length === 1 ? unwrapExpression(decorator.args[0]) :
ts.createObjectLiteral([]);
if (!ts.isObjectLiteralExpression(meta)) {
throw new FatalDiagnosticError(
ErrorCode.DECORATOR_ARG_NOT_LITERAL, meta,
'@NgModule argument must be an object literal');
}
const ngModule = reflectObjectLiteral(meta);
if (ngModule.has('jit')) {
// The only allowed value is true, so there's no need to expand further.
return {};
}
const moduleResolvers = combineResolvers([
ref => this._extractModuleFromModuleWithProvidersFn(ref.node),
forwardRefResolver,
]);
const diagnostics: ts.Diagnostic[] = [];
// Extract the module declarations, imports, and exports.
let declarationRefs: Reference<ClassDeclaration>[] = [];
let rawDeclarations: ts.Expression|null = null;
if (ngModule.has('declarations')) {
rawDeclarations = ngModule.get('declarations')!;
const declarationMeta = this.evaluator.evaluate(rawDeclarations, forwardRefResolver);
declarationRefs =
this.resolveTypeList(rawDeclarations, declarationMeta, name, 'declarations');
// Look through the declarations to make sure they're all a part of the current compilation.
for (const ref of declarationRefs) {
if (ref.node.getSourceFile().isDeclarationFile) {
const errorNode: ts.Expression = ref.getOriginForDiagnostics(rawDeclarations);
diagnostics.push(makeDiagnostic(
ErrorCode.NGMODULE_INVALID_DECLARATION, errorNode,
`Cannot declare '${
ref.node.name
.text}' in an NgModule as it's not a part of the current compilation.`,
[makeRelatedInformation(
ref.node.name, `'${ref.node.name.text}' is declared here.`)]));
}
}
}
if (diagnostics.length > 0) {
return {diagnostics};
}
let importRefs: Reference<ClassDeclaration>[] = [];
let rawImports: ts.Expression|null = null;
if (ngModule.has('imports')) {
rawImports = ngModule.get('imports')!;
const importsMeta = this.evaluator.evaluate(rawImports, moduleResolvers);
importRefs = this.resolveTypeList(rawImports, importsMeta, name, 'imports');
}
let exportRefs: Reference<ClassDeclaration>[] = [];
let rawExports: ts.Expression|null = null;
if (ngModule.has('exports')) {
rawExports = ngModule.get('exports')!;
const exportsMeta = this.evaluator.evaluate(rawExports, moduleResolvers);
exportRefs = this.resolveTypeList(rawExports, exportsMeta, name, 'exports');
this.referencesRegistry.add(node, ...exportRefs);
}
let bootstrapRefs: Reference<ClassDeclaration>[] = [];
if (ngModule.has('bootstrap')) {
const expr = ngModule.get('bootstrap')!;
const bootstrapMeta = this.evaluator.evaluate(expr, forwardRefResolver);
bootstrapRefs = this.resolveTypeList(expr, bootstrapMeta, name, 'bootstrap');
}
const schemas: SchemaMetadata[] = [];
if (ngModule.has('schemas')) {
const rawExpr = ngModule.get('schemas')!;
const result = this.evaluator.evaluate(rawExpr);
if (!Array.isArray(result)) {
throw createValueHasWrongTypeError(rawExpr, result, `NgModule.schemas must be an array`);
}
for (const schemaRef of result) {
if (!(schemaRef instanceof Reference)) {
throw createValueHasWrongTypeError(
rawExpr, result, 'NgModule.schemas must be an array of schemas');
}
const id = schemaRef.getIdentityIn(schemaRef.node.getSourceFile());
if (id === null || schemaRef.ownedByModuleGuess !== '@angular/core') {
throw createValueHasWrongTypeError(
rawExpr, result, 'NgModule.schemas must be an array of schemas');
}
// Since `id` is the `ts.Identifer` within the schema ref's declaration file, it's safe to
// use `id.text` here to figure out which schema is in use. Even if the actual reference was
// renamed when the user imported it, these names will match.
switch (id.text) {
case 'CUSTOM_ELEMENTS_SCHEMA':
schemas.push(CUSTOM_ELEMENTS_SCHEMA);
break;
case 'NO_ERRORS_SCHEMA':
schemas.push(NO_ERRORS_SCHEMA);
break;
default:
throw createValueHasWrongTypeError(
rawExpr, schemaRef, `'${schemaRef.debugName}' is not a valid NgModule schema`);
}
}
}
const id: Expression|null =
ngModule.has('id') ? new WrappedNodeExpr(ngModule.get('id')!) : null;
const valueContext = node.getSourceFile();
let typeContext = valueContext;
const typeNode = this.reflector.getDtsDeclaration(node);
if (typeNode !== null) {
typeContext = typeNode.getSourceFile();
}
const bootstrap =
bootstrapRefs.map(bootstrap => this._toR3Reference(bootstrap, valueContext, typeContext));
const declarations =
declarationRefs.map(decl => this._toR3Reference(decl, valueContext, typeContext));
const imports = importRefs.map(imp => this._toR3Reference(imp, valueContext, typeContext));
const exports = exportRefs.map(exp => this._toR3Reference(exp, valueContext, typeContext));
const isForwardReference = (ref: R3Reference) =>
isExpressionForwardReference(ref.value, node.name!, valueContext);
const containsForwardDecls = bootstrap.some(isForwardReference) ||
declarations.some(isForwardReference) || imports.some(isForwardReference) ||
exports.some(isForwardReference);
const type = wrapTypeReference(this.reflector, node);
const internalType = new WrappedNodeExpr(this.reflector.getInternalNameOfClass(node));
const adjacentType = new WrappedNodeExpr(this.reflector.getAdjacentNameOfClass(node));
const ngModuleDef: R3NgModuleMetadata = {
type,
internalType,
adjacentType,
bootstrap,
declarations,
exports,
imports,
containsForwardDecls,
id,
emitInline: false,
// TODO: to be implemented as a part of FW-1004.
schemas: [],
};
const rawProviders = ngModule.has('providers') ? ngModule.get('providers')! : null;
const wrapperProviders = rawProviders !== null ?
new WrappedNodeExpr(
this.annotateForClosureCompiler ? wrapFunctionExpressionsInParens(rawProviders) :
rawProviders) :
null;
// At this point, only add the module's imports as the injectors' imports. Any exported modules
// are added during `resolve`, as we need scope information to be able to filter out directives
// and pipes from the module exports.
const injectorImports: WrappedNodeExpr<ts.Expression>[] = [];
if (ngModule.has('imports')) {
injectorImports.push(new WrappedNodeExpr(ngModule.get('imports')!));
}
if (this.routeAnalyzer !== null) {
this.routeAnalyzer.add(node.getSourceFile(), name, rawImports, rawExports, rawProviders);
}
const ngInjectorDef: R3InjectorMetadata = {
name,
type,
internalType,
deps: getValidConstructorDependencies(
node, this.reflector, this.defaultImportRecorder, this.isCore),
providers: wrapperProviders,
imports: injectorImports,
};
return {
analysis: {
id,
schemas: schemas,
mod: ngModuleDef,
inj: ngInjectorDef,
declarations: declarationRefs,
rawDeclarations,
imports: importRefs,
exports: exportRefs,
providers: rawProviders,
providersRequiringFactory: rawProviders ?
resolveProvidersRequiringFactory(rawProviders, this.reflector, this.evaluator) :
null,
metadataStmt: generateSetClassMetadataCall(
node, this.reflector, this.defaultImportRecorder, this.isCore,
this.annotateForClosureCompiler),
factorySymbolName: node.name.text,
},
};
}
register(node: ClassDeclaration, analysis: NgModuleAnalysis): void {
// Register this module's information with the LocalModuleScopeRegistry. This ensures that
// during the compile() phase, the module's metadata is available for selector scope
// computation.
this.metaRegistry.registerNgModuleMetadata({
ref: new Reference(node),
schemas: analysis.schemas,
declarations: analysis.declarations,
imports: analysis.imports,
exports: analysis.exports,
rawDeclarations: analysis.rawDeclarations,
});
if (this.factoryTracker !== null) {
this.factoryTracker.track(node.getSourceFile(), {
name: analysis.factorySymbolName,
hasId: analysis.id !== null,
});
}
this.injectableRegistry.registerInjectable(node);
}
resolve(node: ClassDeclaration, analysis: Readonly<NgModuleAnalysis>):
ResolveResult<NgModuleResolution> {
const scope = this.scopeRegistry.getScopeOfModule(node);
const diagnostics: ts.Diagnostic[] = [];
const scopeDiagnostics = this.scopeRegistry.getDiagnosticsOfModule(node);
if (scopeDiagnostics !== null) {
diagnostics.push(...scopeDiagnostics);
}
if (analysis.providersRequiringFactory !== null) {
const providerDiagnostics = getProviderDiagnostics(
analysis.providersRequiringFactory, analysis.providers!, this.injectableRegistry);
diagnostics.push(...providerDiagnostics);
}
const data: NgModuleResolution = {
injectorImports: [],
};
if (scope !== null && !scope.compilation.isPoisoned) {
// Using the scope information, extend the injector's imports using the modules that are
// specified as module exports.
const context = getSourceFile(node);
for (const exportRef of analysis.exports) {
if (isNgModule(exportRef.node, scope.compilation)) {
data.injectorImports.push(this.refEmitter.emit(exportRef, context));
}
}
for (const decl of analysis.declarations) {
const metadata = this.metaReader.getDirectiveMetadata(decl);
if (metadata !== null && metadata.selector === null) {
throw new FatalDiagnosticError(
ErrorCode.DIRECTIVE_MISSING_SELECTOR, decl.node,
`Directive ${decl.node.name.text} has no selector, please add it!`);
}
}
}
if (diagnostics.length > 0) {
return {diagnostics};
}
if (scope === null || scope.compilation.isPoisoned || scope.exported.isPoisoned ||
scope.reexports === null) {
return {data};
} else {
return {
data,
reexports: scope.reexports,
};
}
}
compileFull(
node: ClassDeclaration, analysis: Readonly<NgModuleAnalysis>,
resolution: Readonly<NgModuleResolution>): CompileResult[] {
// Merge the injector imports (which are 'exports' that were later found to be NgModules)
// computed during resolution with the ones from analysis.
const ngInjectorDef = compileInjector({
...analysis.inj,
imports: [...analysis.inj.imports, ...resolution.injectorImports],
});
const ngModuleDef = compileNgModule(analysis.mod);
const ngModuleStatements = ngModuleDef.additionalStatements;
if (analysis.metadataStmt !== null) {
ngModuleStatements.push(analysis.metadataStmt);
}
const context = getSourceFile(node);
for (const decl of analysis.declarations) {
const remoteScope = this.scopeRegistry.getRemoteScope(decl.node);
if (remoteScope !== null) {
const directives =
remoteScope.directives.map(directive => this.refEmitter.emit(directive, context));
const pipes = remoteScope.pipes.map(pipe => this.refEmitter.emit(pipe, context));
const directiveArray = new LiteralArrayExpr(directives);
const pipesArray = new LiteralArrayExpr(pipes);
const declExpr = this.refEmitter.emit(decl, context)!;
const setComponentScope = new ExternalExpr(R3Identifiers.setComponentScope);
const callExpr =
new InvokeFunctionExpr(setComponentScope, [declExpr, directiveArray, pipesArray]);
ngModuleStatements.push(callExpr.toStmt());
}
}
const res: CompileResult[] = [
{
name: 'ɵmod',
initializer: ngModuleDef.expression,
statements: ngModuleStatements,
type: ngModuleDef.type,
},
{
name: 'ɵinj',
initializer: ngInjectorDef.expression,
statements: ngInjectorDef.statements,
type: ngInjectorDef.type,
}
];
if (this.localeId) {
res.push({
name: 'ɵloc',
initializer: new LiteralExpr(this.localeId),
statements: [],
type: STRING_TYPE
});
}
return res;
}
private _toR3Reference(
valueRef: Reference<ClassDeclaration>, valueContext: ts.SourceFile,
typeContext: ts.SourceFile): R3Reference {
if (valueRef.hasOwningModuleGuess) {
return toR3Reference(valueRef, valueRef, valueContext, valueContext, this.refEmitter);
} else {
let typeRef = valueRef;
let typeNode = this.reflector.getDtsDeclaration(typeRef.node);
if (typeNode !== null && isNamedClassDeclaration(typeNode)) {
typeRef = new Reference(typeNode);
}
return toR3Reference(valueRef, typeRef, valueContext, typeContext, this.refEmitter);
}
}
/**
* Given a `FunctionDeclaration`, `MethodDeclaration` or `FunctionExpression`, check if it is
* typed as a `ModuleWithProviders` and return an expression referencing the module if available.
*/
private _extractModuleFromModuleWithProvidersFn(node: ts.FunctionDeclaration|
ts.MethodDeclaration|
ts.FunctionExpression): ts.Expression|null {
const type = node.type || null;
return type &&
(this._reflectModuleFromTypeParam(type, node) || this._reflectModuleFromLiteralType(type));
}
/**
* Retrieve an `NgModule` identifier (T) from the specified `type`, if it is of the form:
* `ModuleWithProviders<T>`
* @param type The type to reflect on.
* @returns the identifier of the NgModule type if found, or null otherwise.
*/
private _reflectModuleFromTypeParam(
type: ts.TypeNode,
node: ts.FunctionDeclaration|ts.MethodDeclaration|ts.FunctionExpression): ts.Expression|null {
// Examine the type of the function to see if it's a ModuleWithProviders reference.
if (!ts.isTypeReferenceNode(type)) {
return null;
}
const typeName = type &&
(ts.isIdentifier(type.typeName) && type.typeName ||
ts.isQualifiedName(type.typeName) && type.typeName.right) ||
null;
if (typeName === null) {
return null;
}
// Look at the type itself to see where it comes from.
const id = this.reflector.getImportOfIdentifier(typeName);
// If it's not named ModuleWithProviders, bail.
if (id === null || id.name !== 'ModuleWithProviders') {
return null;
}
// If it's not from @angular/core, bail.
if (!this.isCore && id.from !== '@angular/core') {
return null;
}
// If there's no type parameter specified, bail.
if (type.typeArguments === undefined || type.typeArguments.length !== 1) {
const parent =
ts.isMethodDeclaration(node) && ts.isClassDeclaration(node.parent) ? node.parent : null;
const symbolName = (parent && parent.name ? parent.name.getText() + '.' : '') +
(node.name ? node.name.getText() : 'anonymous');
throw new FatalDiagnosticError(
ErrorCode.NGMODULE_MODULE_WITH_PROVIDERS_MISSING_GENERIC, type,
`${symbolName} returns a ModuleWithProviders type without a generic type argument. ` +
`Please add a generic type argument to the ModuleWithProviders type. If this ` +
`occurrence is in library code you don't control, please contact the library authors.`);
}
const arg = type.typeArguments[0];
return typeNodeToValueExpr(arg);
}
/**
* Retrieve an `NgModule` identifier (T) from the specified `type`, if it is of the form:
* `A|B|{ngModule: T}|C`.
* @param type The type to reflect on.
* @returns the identifier of the NgModule type if found, or null otherwise.
*/
private _reflectModuleFromLiteralType(type: ts.TypeNode): ts.Expression|null {
if (!ts.isIntersectionTypeNode(type)) {
return null;
}
for (const t of type.types) {
if (ts.isTypeLiteralNode(t)) {
for (const m of t.members) {
const ngModuleType = ts.isPropertySignature(m) && ts.isIdentifier(m.name) &&
m.name.text === 'ngModule' && m.type ||
null;
const ngModuleExpression = ngModuleType && typeNodeToValueExpr(ngModuleType);
if (ngModuleExpression) {
return ngModuleExpression;
}
}
}
}
return null;
}
// Verify that a "Declaration" reference is a `ClassDeclaration` reference.
private isClassDeclarationReference(ref: Reference): ref is Reference<ClassDeclaration> {
return this.reflector.isClass(ref.node);
}
/**
* Compute a list of `Reference`s from a resolved metadata value.
*/
private resolveTypeList(
expr: ts.Node, resolvedList: ResolvedValue, className: string,
arrayName: string): Reference<ClassDeclaration>[] {
const refList: Reference<ClassDeclaration>[] = [];
if (!Array.isArray(resolvedList)) {
throw createValueHasWrongTypeError(
expr, resolvedList,
`Expected array when reading the NgModule.${arrayName} of ${className}`);
}
resolvedList.forEach((entry, idx) => {
// Unwrap ModuleWithProviders for modules that are locally declared (and thus static
// resolution was able to descend into the function and return an object literal, a Map).
if (entry instanceof Map && entry.has('ngModule')) {
entry = entry.get('ngModule')!;
}
if (Array.isArray(entry)) {
// Recurse into nested arrays.
refList.push(...this.resolveTypeList(expr, entry, className, arrayName));
} else if (entry instanceof Reference) {
if (!this.isClassDeclarationReference(entry)) {
throw createValueHasWrongTypeError(
entry.node, entry,
`Value at position ${idx} in the NgModule.${arrayName} of ${
className} is not a class`);
}
refList.push(entry);
} else {
// TODO(alxhub): Produce a better diagnostic here - the array index may be an inner array.
throw createValueHasWrongTypeError(
expr, entry,
`Value at position ${idx} in the NgModule.${arrayName} of ${
className} is not a reference`);
}
});
return refList;
}
}
function isNgModule(node: ClassDeclaration, compilation: ScopeData): boolean {
return !compilation.directives.some(directive => directive.ref.node === node) &&
!compilation.pipes.some(pipe => pipe.ref.node === node);
}