import { AttributeMetadata, DirectiveMetadata, ComponentMetadata, ContentChildrenMetadata, ContentChildMetadata, InputMetadata, HostBindingMetadata, HostListenerMetadata, OutputMetadata, PipeMetadata, ViewChildMetadata, ViewChildrenMetadata, ViewQueryMetadata, QueryMetadata, Provider, HostMetadata, OptionalMetadata, InjectableMetadata, SelfMetadata, SkipSelfMetadata, InjectMetadata, } from "@angular/core"; import {ReflectorReader} from "./core_private"; /** * The host of the static resolver is expected to be able to provide module metadata in the form of * ModuleMetadata. Angular 2 CLI will produce this metadata for a module whenever a .d.ts files is * produced and the module has exported variables or classes with decorators. Module metadata can * also be produced directly from TypeScript sources by using MetadataCollector in tools/metadata. */ export interface StaticReflectorHost { /** * Return a ModuleMetadata for the given module. * * @param modulePath is a string identifier for a module as an absolute path. * @returns the metadata for the given module. */ getMetadataFor(modulePath: string): {[key: string]: any}; /** * Resolve a symbol from an import statement form, to the file where it is declared. * @param module the location imported from * @param containingFile for relative imports, the path of the file containing the import */ findDeclaration(modulePath: string, symbolName: string, containingFile?: string): StaticSymbol; getStaticSymbol(declarationFile: string, name: string): StaticSymbol; angularImportLocations(): {coreDecorators: string, diDecorators: string, diMetadata: string, provider: string}; } /** * A token representing the a reference to a static type. * * This token is unique for a filePath and name and can be used as a hash table key. */ export class StaticSymbol { constructor(public filePath: string, public name: string) {} } /** * A static reflector implements enough of the Reflector API that is necessary to compile * templates statically. */ export class StaticReflector implements ReflectorReader { private annotationCache = new Map(); private propertyCache = new Map(); private parameterCache = new Map(); private metadataCache = new Map(); private conversionMap = new Map any>(); constructor(private host: StaticReflectorHost) { this.initializeConversionMap(); } importUri(typeOrFunc: StaticSymbol): string { var staticSymbol = this.host.findDeclaration(typeOrFunc.filePath, typeOrFunc.name, ''); return staticSymbol ? staticSymbol.filePath : null; } public annotations(type: StaticSymbol): any[] { let annotations = this.annotationCache.get(type); if (!annotations) { let classMetadata = this.getTypeMetadata(type); if (classMetadata['decorators']) { annotations = this.simplify(type, classMetadata['decorators']); } else { annotations = []; } this.annotationCache.set(type, annotations.filter(ann => !!ann)); } return annotations; } public propMetadata(type: StaticSymbol): {[key: string]: any} { let propMetadata = this.propertyCache.get(type); if (!propMetadata) { let classMetadata = this.getTypeMetadata(type); let members = classMetadata ? classMetadata['members'] : {}; propMetadata = mapStringMap(members, (propData, propName) => { let prop = (propData).find(a => a['__symbolic'] == 'property'); if (prop && prop['decorators']) { return this.simplify(type, prop['decorators']); } else { return []; } }); this.propertyCache.set(type, propMetadata); } return propMetadata; } public parameters(type: StaticSymbol): any[] { if (!(type instanceof StaticSymbol)) { throw new Error(`parameters received ${JSON.stringify(type)} which is not a StaticSymbol`); } try { let parameters = this.parameterCache.get(type); if (!parameters) { let classMetadata = this.getTypeMetadata(type); let members = classMetadata ? classMetadata['members'] : null; let ctorData = members ? members['__ctor__'] : null; if (ctorData) { let ctor = (ctorData).find(a => a['__symbolic'] == 'constructor'); let parameterTypes = this.simplify(type, ctor['parameters'] || []); let parameterDecorators = this.simplify(type, ctor['parameterDecorators'] || []); parameters = []; parameterTypes.forEach((paramType, index) => { let nestedResult: any[] = []; if (paramType) { nestedResult.push(paramType); } let decorators = parameterDecorators ? parameterDecorators[index] : null; if (decorators) { nestedResult.push(...decorators); } parameters.push(nestedResult); }); } if (!parameters) { parameters = []; } this.parameterCache.set(type, parameters); } return parameters; } catch (e) { console.log(`Failed on type ${JSON.stringify(type)} with error ${e}`); throw e; } } hasLifecycleHook(type: any, lcInterface: /*Type*/ any, lcProperty: string): boolean { if (!(type instanceof StaticSymbol)) { throw new Error( `hasLifecycleHook received ${JSON.stringify(type)} which is not a StaticSymbol`); } let classMetadata = this.getTypeMetadata(type); let members = classMetadata ? classMetadata['members'] : null; let member:any[] = members ? members[lcProperty] : null; return member ? member.some(a => a['__symbolic'] == 'method') : false; } private registerDecoratorOrConstructor(type: StaticSymbol, ctor: any): void { this.conversionMap.set(type, (context: StaticSymbol, args: any[]) => { let argValues: any[] = []; args.forEach((arg, index) => { let argValue: any; if (typeof arg === 'object' && !arg['__symbolic']) { argValue = mapStringMap(arg, (value, key) => this.simplify(context, value)); } else { argValue = this.simplify(context, arg); } argValues.push(argValue); }); var metadata = Object.create(ctor.prototype); ctor.apply(metadata, argValues); return metadata; }); } private initializeConversionMap(): void { const {coreDecorators, diDecorators, diMetadata, provider} = this.host.angularImportLocations(); this.registerDecoratorOrConstructor(this.host.findDeclaration(provider, 'Provider'), Provider); this.registerDecoratorOrConstructor(this.host.findDeclaration(diDecorators, 'Host'), HostMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(diDecorators, 'Injectable'), InjectableMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(diDecorators, 'Self'), SelfMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(diDecorators, 'SkipSelf'), SkipSelfMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(diDecorators, 'Inject'), InjectMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(diDecorators, 'Optional'), OptionalMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(coreDecorators, 'Attribute'), AttributeMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(coreDecorators, 'Query'), QueryMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(coreDecorators, 'ViewQuery'), ViewQueryMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(coreDecorators, 'ContentChild'), ContentChildMetadata); this.registerDecoratorOrConstructor( this.host.findDeclaration(coreDecorators, 'ContentChildren'), ContentChildrenMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(coreDecorators, 'ViewChild'), ViewChildMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(coreDecorators, 'ViewChildren'), ViewChildrenMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(coreDecorators, 'Input'), InputMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(coreDecorators, 'Output'), OutputMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(coreDecorators, 'Pipe'), PipeMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(coreDecorators, 'HostBinding'), HostBindingMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(coreDecorators, 'HostListener'), HostListenerMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(coreDecorators, 'Directive'), DirectiveMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(coreDecorators, 'Component'), ComponentMetadata); // Note: Some metadata classes can be used directly with Provider.deps. this.registerDecoratorOrConstructor(this.host.findDeclaration(diMetadata, 'HostMetadata'), HostMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(diMetadata, 'SelfMetadata'), SelfMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(diMetadata, 'SkipSelfMetadata'), SkipSelfMetadata); this.registerDecoratorOrConstructor(this.host.findDeclaration(diMetadata, 'OptionalMetadata'), OptionalMetadata); } /** @internal */ public simplify(context: StaticSymbol, value: any): any { let _this = this; function simplify(expression: any): any { if (isPrimitive(expression)) { return expression; } if (expression instanceof Array) { let result: any[] = []; for (let item of(expression)) { result.push(simplify(item)); } return result; } if (expression) { if (expression['__symbolic']) { let staticSymbol: StaticSymbol; switch (expression['__symbolic']) { case "binop": let left = simplify(expression['left']); let right = simplify(expression['right']); switch (expression['operator']) { case '&&': return left && right; case '||': return left || right; case '|': return left | right; case '^': return left ^ right; case '&': return left & right; case '==': return left == right; case '!=': return left != right; case '===': return left === right; case '!==': return left !== right; case '<': return left < right; case '>': return left > right; case '<=': return left <= right; case '>=': return left >= right; case '<<': return left << right; case '>>': return left >> right; case '+': return left + right; case '-': return left - right; case '*': return left * right; case '/': return left / right; case '%': return left % right; } return null; case "pre": let operand = simplify(expression['operand']); switch (expression['operator']) { case '+': return operand; case '-': return -operand; case '!': return !operand; case '~': return ~operand; } return null; case "index": let indexTarget = simplify(expression['expression']); let index = simplify(expression['index']); if (indexTarget && isPrimitive(index)) return indexTarget[index]; return null; case "select": let selectTarget = simplify(expression['expression']); let member = simplify(expression['member']); if (selectTarget && isPrimitive(member)) return selectTarget[member]; return null; case "reference": if (expression['module']) { staticSymbol = _this.host.findDeclaration(expression['module'], expression['name'], context.filePath); } else { staticSymbol = _this.host.getStaticSymbol(context.filePath, expression['name']); } let result = staticSymbol; let moduleMetadata = _this.getModuleMetadata(staticSymbol.filePath); let declarationValue = moduleMetadata ? moduleMetadata['metadata'][staticSymbol.name] : null; if (declarationValue) { result = _this.simplify(staticSymbol, declarationValue); } return result; case "class": return context; case "new": case "call": let target = expression['expression']; if (target['module']) { staticSymbol = _this.host.findDeclaration(target['module'], target['name'], context.filePath); } else { staticSymbol = _this.host.getStaticSymbol(context.filePath, target['name']); } let converter = _this.conversionMap.get(staticSymbol); if (converter) { let args = expression['arguments']; if (!args) { args = []; } return converter(context, args); } else { return context; } } return null; } return mapStringMap(expression, (value, name) => simplify(value)); } return null; } return simplify(value); } /** * @param module an absolute path to a module file. */ public getModuleMetadata(module: string): {[key: string]: any} { let moduleMetadata = this.metadataCache.get(module); if (!moduleMetadata) { moduleMetadata = this.host.getMetadataFor(module); if (!moduleMetadata) { moduleMetadata = {__symbolic: "module", module: module, metadata: {}}; } this.metadataCache.set(module, moduleMetadata); } return moduleMetadata; } private getTypeMetadata(type: StaticSymbol): {[key: string]: any} { let moduleMetadata = this.getModuleMetadata(type.filePath); let result = moduleMetadata['metadata'][type.name]; if (!result) { result = {__symbolic: "class"}; } return result; } } function mapStringMap(input: {[key: string]: any}, transform: (value: any, key: string) => any): {[key: string]: any} { if (!input) return {}; var result: {[key: string]: any} = {}; Object.keys(input).forEach((key) => { result[key] = transform(input[key], key); }); return result; } function isPrimitive(o: any): boolean { return o === null || (typeof o !== "function" && typeof o !== "object"); }