angular-docs-cn/packages/compiler-cli/ngcc/test/host/esm2015_host_spec.ts

2731 lines
117 KiB
TypeScript

/**
* @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 * as ts from 'typescript';
import {absoluteFrom, getFileSystem, getSourceFileOrError} from '../../../src/ngtsc/file_system';
import {runInEachFileSystem, TestFile} from '../../../src/ngtsc/file_system/testing';
import {MockLogger} from '../../../src/ngtsc/logging/testing';
import {ClassMemberKind, ConcreteDeclaration, CtorParameter, DownleveledEnum, isNamedClassDeclaration, isNamedFunctionDeclaration, isNamedVariableDeclaration, TypeScriptReflectionHost} from '../../../src/ngtsc/reflection';
import {getDeclaration, loadFakeCore, loadTestFiles, walkForDeclarations} from '../../../src/ngtsc/testing';
import {DelegatingReflectionHost} from '../../src/host/delegating_host';
import {Esm2015ReflectionHost} from '../../src/host/esm2015_host';
import {BundleProgram} from '../../src/packages/bundle_program';
import {getRootFiles, makeTestBundleProgram, makeTestDtsBundleProgram} from '../helpers/utils';
import {expectTypeValueReferencesForParameters} from './util';
runInEachFileSystem(() => {
describe('Esm2015ReflectionHost', () => {
let _: typeof absoluteFrom;
let SOME_DIRECTIVE_FILE: TestFile;
let CTOR_DECORATORS_ARRAY_FILE: TestFile;
let ACCESSORS_FILE: TestFile;
let SIMPLE_CLASS_FILE: TestFile;
let CLASS_EXPRESSION_FILE: TestFile;
let WRAPPED_CLASS_EXPRESSION_FILE: TestFile;
let FOO_FUNCTION_FILE: TestFile;
let INVALID_DECORATORS_FILE: TestFile;
let INVALID_DECORATOR_ARGS_FILE: TestFile;
let INVALID_PROP_DECORATORS_FILE: TestFile;
let INVALID_PROP_DECORATOR_ARGS_FILE: TestFile;
let INVALID_CTOR_DECORATORS_FILE: TestFile;
let INVALID_CTOR_DECORATOR_ARGS_FILE: TestFile;
let IMPORTS_FILES: TestFile[];
let EXPORTS_FILES: TestFile[];
let FUNCTION_BODY_FILE: TestFile;
let MARKER_FILE: TestFile;
let DECORATED_FILES: TestFile[];
let ARITY_CLASSES: TestFile[];
let TYPINGS_SRC_FILES: TestFile[];
let TYPINGS_DTS_FILES: TestFile[];
let NAMESPACED_IMPORT_FILE: TestFile;
let INDEX_SIGNATURE_PROP_FILE: TestFile;
// Helpers
const createHost = (bundle: BundleProgram, ngccHost: Esm2015ReflectionHost) => {
const tsHost = new TypeScriptReflectionHost(bundle.program.getTypeChecker());
return new DelegatingReflectionHost(tsHost, ngccHost);
};
beforeEach(() => {
_ = absoluteFrom;
SOME_DIRECTIVE_FILE = {
name: _('/some_directive.js'),
contents: `
import { Directive, Inject, InjectionToken, Input, HostListener, HostBinding, ViewContainerRef, TemplateRef } from '@angular/core';
const INJECTED_TOKEN = new InjectionToken('injected');
const TestToken = {};
class SomeDirective {
constructor(_viewContainer, _template, injected) {
this.instanceProperty = 'instance';
}
instanceMethod() {}
onClick() {}
@HostBinding('class.foo')
get isClassFoo() { return false; }
static staticMethod() {}
}
SomeDirective.staticProperty = 'static';
SomeDirective.decorators = [
{ type: Directive, args: [{ selector: '[someDirective]' },] }
];
SomeDirective.ctorParameters = () => [
{ type: ViewContainerRef, },
{ type: TemplateRef, },
{ type: undefined, decorators: [{ type: Inject, args: [INJECTED_TOKEN,] },] },
];
SomeDirective.propDecorators = {
"input1": [{ type: Input },],
"input2": [{ type: Input },],
"target": [{ type: HostBinding, args: ['attr.target',] }, { type: Input },],
"onClick": [{ type: HostListener, args: ['click',] },],
};
`,
};
CTOR_DECORATORS_ARRAY_FILE = {
name: _('/ctor_decorated_as_array.js'),
contents: `
class CtorDecoratedAsArray {
constructor(arg1) {
}
}
CtorDecoratedAsArray.ctorParameters = [{ type: ParamType, decorators: [{ type: Inject },] }];
`,
};
ACCESSORS_FILE = {
name: _('/accessors.js'),
contents: `
import { Directive, Input, Output } from '@angular/core';
class SomeDirective {
set setterAndGetter(value) { this.value = value; }
get setterAndGetter() { return null; }
}
SomeDirective.decorators = [
{ type: Directive, args: [{ selector: '[someDirective]' },] }
];
SomeDirective.propDecorators = {
"setterAndGetter": [{ type: Input },],
};
`,
};
SIMPLE_CLASS_FILE = {
name: _('/simple_class.js'),
contents: `
class EmptyClass {}
class NoDecoratorConstructorClass {
constructor(foo) {}
}
let SimpleWrappedClass = /** @class */ (() => {
class SimpleWrappedClassInner {}
return SimpleWrappedClassInner;
})();
let AliasedWrappedClass = /** @class */ (() => {
let AliasedWrappedClassAdjacent = class AliasedWrappedClassInner {};
return AliasWrappedClassAdjacent;
})();
`,
};
CLASS_EXPRESSION_FILE = {
name: _('/class_expression.js'),
contents: `
import {Directive} from '@angular/core';
var AliasedClass_1;
let EmptyClass = class EmptyClass {};
let AliasedClass = AliasedClass_1 = class AliasedClass {}
AliasedClass.decorators = [
{ type: Directive, args: [{ selector: '[someDirective]' },] }
];
let usageOfAliasedClass = AliasedClass_1;
`,
};
WRAPPED_CLASS_EXPRESSION_FILE = {
name: _('/wrapped_class_expression.js'),
contents: `
import {Directive} from '@angular/core';
var AliasedWrappedClass_1;
let SimpleWrappedClass = /** @class */ (() => {
class SimpleWrappedClass {}
return SimpleWrappedClass;
})();
let AliasedWrappedClass = AliasedWrappedClass_1 = /** @class */ (() => {
class AliasedWrappedClass {}
AliasedWrappedClass.decorators = [
{ type: Directive, args: [{ selector: '[someDirective]' },] }
];
return AliasedWrappedClass;
})();
let usageOfWrappedClass = AliasedWrappedClass_1;
let DecoratedWrappedClass = /** @class */ (() => {
var DecoratedWrappedClass_1;
let AdjacentDecoratedWrappedClass = DecoratedWrappedClass_1 = class InnerDecoratedWrappedClass {
static forRoot() {
return new DecoratedWrappedClass_1();
}
};
AdjacentDecoratedWrappedClass = DecoratedWrappedClass_1 = __decorate([
Decorator()
], AdjacentDecoratedWrappedClass);
return AdjacentDecoratedWrappedClass;
})();
`,
};
FOO_FUNCTION_FILE = {
name: _('/foo_function.js'),
contents: `
import { Directive } from '@angular/core';
function foo() {}
foo.decorators = [
{ type: Directive, args: [{ selector: '[ignored]' },] }
];
`,
};
INVALID_DECORATORS_FILE = {
name: _('/invalid_decorators.js'),
contents: `
import {Directive} from '@angular/core';
class NotArrayLiteral {
}
NotArrayLiteral.decorators = () => [
{ type: Directive, args: [{ selector: '[ignored]' },] },
];
class NotObjectLiteral {
}
NotObjectLiteral.decorators = [
"This is not an object literal",
{ type: Directive },
];
class NoTypeProperty {
}
NoTypeProperty.decorators = [
{ notType: Directive },
{ type: Directive },
];
class NotIdentifier {
}
NotIdentifier.decorators = [
{ type: 'StringsLiteralsAreNotIdentifiers' },
{ type: Directive },
];
`,
};
INVALID_DECORATOR_ARGS_FILE = {
name: _('/invalid_decorator_args.js'),
contents: `
import {Directive} from '@angular/core';
class NoArgsProperty {
}
NoArgsProperty.decorators = [
{ type: Directive },
];
const args = [{ selector: '[ignored]' },];
class NoPropertyAssignment {
}
NoPropertyAssignment.decorators = [
{ type: Directive, args },
];
class NotArrayLiteral {
}
NotArrayLiteral.decorators = [
{ type: Directive, args: () => [{ selector: '[ignored]' },] },
];
`,
};
INVALID_PROP_DECORATORS_FILE = {
name: _('/invalid_prop_decorators.js'),
contents: `
import {Input} from '@angular/core';
class NotObjectLiteral {
}
NotObjectLiteral.propDecorators = () => ({
"prop": [{ type: Input },]
});
class NotObjectLiteralProp {
}
NotObjectLiteralProp.propDecorators = {
"prop": [
"This is not an object literal",
{ type: Input },
]
};
class NoTypeProperty {
}
NoTypeProperty.propDecorators = {
"prop": [
{ notType: Input },
{ type: Input },
]
};
class NotIdentifier {
}
NotIdentifier.propDecorators = {
"prop": [
{ type: 'StringsLiteralsAreNotIdentifiers' },
{ type: Input },
]
};
`,
};
INVALID_PROP_DECORATOR_ARGS_FILE = {
name: _('/invalid_prop_decorator_args.js'),
contents: `
import {Input} from '@angular/core';
class NoArgsProperty {
}
NoArgsProperty.propDecorators = {
"prop": [{ type: Input },]
};
const args = [{ selector: '[ignored]' },];
class NoPropertyAssignment {
}
NoPropertyAssignment.propDecorators = {
"prop": [{ type: Input, args },]
};
class NotArrayLiteral {
}
NotArrayLiteral.propDecorators = {
"prop": [{ type: Input, args: () => [{ selector: '[ignored]' },] },],
};
`,
};
INVALID_CTOR_DECORATORS_FILE = {
name: _('/invalid_ctor_decorators.js'),
contents: `
import {Inject} from '@angular/core';
class NoParameters {
constructor() {
}
}
const NotFromCoreDecorator = {};
class NotFromCore {
constructor(arg1) {
}
}
NotFromCore.ctorParameters = () => [
{ type: 'ParamType', decorators: [{ type: NotFromCoreDecorator },] },
]
class NotArrowFunction {
constructor(arg1) {
}
}
NotArrowFunction.ctorParameters = function() {
return { type: 'ParamType', decorators: [{ type: Inject },] };
};
class NotArrayLiteral {
constructor(arg1) {
}
}
NotArrayLiteral.ctorParameters = () => 'StringsAreNotArrayLiterals';
class NotObjectLiteral {
constructor(arg1, arg2) {
}
}
NotObjectLiteral.ctorParameters = () => [
"This is not an object literal",
{ type: 'ParamType', decorators: [{ type: Inject },] },
];
class NoTypeProperty {
constructor(arg1, arg2) {
}
}
NoTypeProperty.ctorParameters = () => [
{
type: 'ParamType',
decorators: [
{ notType: Inject },
{ type: Inject },
]
},
];
class NotIdentifier {
constructor(arg1, arg2) {
}
}
NotIdentifier.ctorParameters = () => [
{
type: 'ParamType',
decorators: [
{ type: 'StringsLiteralsAreNotIdentifiers' },
{ type: Inject },
]
},
];
`,
};
INVALID_CTOR_DECORATOR_ARGS_FILE = {
name: _('/invalid_ctor_decorator_args.js'),
contents: `
import {Inject} from '@angular/core';
class NoArgsProperty {
constructor(arg1) {
}
}
NoArgsProperty.ctorParameters = () => [
{ type: 'ParamType', decorators: [{ type: Inject },] },
];
const args = [{ selector: '[ignored]' },];
class NoPropertyAssignment {
constructor(arg1) {
}
}
NoPropertyAssignment.ctorParameters = () => [
{ type: 'ParamType', decorators: [{ type: Inject, args },] },
];
class NotArrayLiteral {
constructor(arg1) {
}
}
NotArrayLiteral.ctorParameters = () => [
{ type: 'ParamType', decorators: [{ type: Inject, args: () => [{ selector: '[ignored]' },] },] },
];
`,
};
IMPORTS_FILES = [
{
name: _('/index.js'),
contents: `
import * as a from './a';
import * as b from './b';
import * as c from './c';
`
},
{
name: _('/a.js'),
contents: `
export const a = 'a';
`,
},
{
name: _('/b.js'),
contents: `
import {a} from './a.js';
import {a as foo} from './a.js';
const b = a;
const c = foo;
const d = b;
`,
},
];
EXPORTS_FILES = [
{
name: _('/index.js'),
contents: `
import * as a from './a';
import * as b from './b';
`
},
{
name: _('/a.js'),
contents: `
export const a = 'a';
`,
},
{
name: _('/b.js'),
contents: `
import {Directive} from '@angular/core';
import {a} from './a';
import {a as foo} from './a';
export {Directive} from '@angular/core';
export {a} from './a';
export const b = a;
export const c = foo;
export const d = b;
export const e = 'e';
export const DirectiveX = Directive;
export class SomeClass {}
`,
},
];
FUNCTION_BODY_FILE = {
name: _('/function_body.js'),
contents: `
function foo(x) {
return x;
}
function bar(x, y = 42) {
return x + y;
}
function baz(x) {
let y;
if (y === void 0) { y = 42; }
return x;
}
let y;
function qux(x) {
if (x === void 0) { y = 42; }
return y;
}
function moo() {
let x;
if (x === void 0) { x = 42; }
return x;
}
let x;
function juu() {
if (x === void 0) { x = 42; }
return x;
}
`
};
MARKER_FILE = {
name: _('/marker.js'),
contents: `
let compileNgModuleFactory = compileNgModuleFactory__PRE_R3__;
function compileNgModuleFactory__PRE_R3__(injector, options, moduleType) {
const compilerFactory = injector.get(CompilerFactory);
const compiler = compilerFactory.createCompiler([options]);
return compiler.compileModuleAsync(moduleType);
}
function compileNgModuleFactory__POST_R3__(injector, options, moduleType) {
ngDevMode && assertNgModuleType(moduleType);
return Promise.resolve(new R3NgModuleFactory(moduleType));
}
`
};
DECORATED_FILES = [
{
name: _('/primary.js'),
contents: `
import {Directive} from '@angular/core';
import {D} from './secondary';
class A {}
A.decorators = [
{ type: Directive, args: [{ selector: '[a]' }] }
];
function x() {}
function y() {}
class B {}
B.decorators = [
{ type: Directive, args: [{ selector: '[b]' }] }
];
class C {}
var AliasedClass_1;
let AliasedClass = AliasedClass_1 = class AliasedClass {}
AliasedClass.decorators = [
{ type: Directive, args: [{ selector: '[aliased]' },] }
];
let Wrapped1 = /** @class */ (() => {
let Wrapped1 = class Wrapped1 {
};
Wrapped1 = __decorate([
Directive({selector: '[wrapped-1]'})
], Wrapped1);
return Wrapped1;
})();
let Wrapped2 = /** @class */ (() => {
class Wrapped2 {}
Wrapped2.decorators = [
{ type: Directive, args: [{ selector: '[wrapped-2]' },] }
];
return Wrapped2;
})();
export { A, x, C, AliasedClass, Wrapped1, Wrapped2 };
`
},
{
name: _('/secondary.js'),
contents: `
import {Directive} from '@angular/core';
class D {}
D.decorators = [
{ type: Directive, args: [{ selector: '[d]' }] }
];
export {D};
`
}
];
ARITY_CLASSES = [
{
name: _('/src/class.js'),
contents: `
export class NoTypeParam {}
export class OneTypeParam {}
export class TwoTypeParams {}
`,
},
{
name: _('/typings/class.d.ts'),
contents: `
export declare class NoTypeParam {}
export declare class OneTypeParam<T> {}
export declare class TwoTypeParams<T, K> {}
`,
},
];
TYPINGS_SRC_FILES = [
{
name: _('/ep/src/index.js'),
contents: `
import 'an_external_lib';
import 'an_external_lib_without_typings';
import {InternalClass} from './internal';
import * as func1 from './func1';
import * as missing from './missing-class';
import * as flatFile from './flat-file';
export * from './class1';
export * from './class2';
`
},
{
name: _('/ep/src/class1.js'),
contents: 'export class Class1 {}\nexport class MissingClass1 {}'
},
{name: _('/ep/src/class2.js'), contents: 'export class Class2 {}'},
{name: _('/ep/src/func1.js'), contents: 'export function mooFn() {}'},
{
name: _('/ep/src/internal.js'),
contents: 'export class InternalClass {}\nexport class Class2 {}'
},
{name: _('/ep/src/missing-class.js'), contents: 'export class MissingClass2 {}'},
{
name: _('/ep/src/flat-file.js'),
contents: `
export class Class1 {}
export class MissingClass1 {}
export class MissingClass2 {}
class SourceClass {}
export {SourceClass as AliasedClass};`,
},
{
name: _('/ep/src/shadow-class.js'),
contents: 'export class ShadowClass {}',
},
{
name: _('/an_external_lib_without_typings/index.js'),
contents: '// Some content.',
},
];
TYPINGS_DTS_FILES = [
{
name: _('/ep/typings/index.d.ts'),
contents: `
import '../../an_external_lib/index';
import {InternalClass} from './internal';
import {mooFn} from './func1';
export * from './class1';
export * from './class2';
`
},
{
name: _('/ep/typings/class1.d.ts'),
contents: `export declare class Class1 {}\nexport declare class OtherClass {}`
},
{
name: _('/ep/typings/class2.d.ts'),
contents: `
export declare class Class2 {}
export declare interface SomeInterface {}
export {TypingsClass as AliasedClass} from './typings-class';
`
},
{name: _('/ep/typings/func1.d.ts'), contents: 'export declare function mooFn(): void;'},
{
name: _('/ep/typings/internal.d.ts'),
contents: `export declare class InternalClass {}\nexport declare class Class2 {}`
},
{
name: _('/ep/typings/typings-class.d.ts'),
contents: `export declare class TypingsClass {}`
},
{name: _('/ep/typings/shadow-class.d.ts'), contents: `export declare class ShadowClass {}`},
{name: _('/an_external_lib/index.d.ts'), contents: 'export declare class ShadowClass {}'},
];
NAMESPACED_IMPORT_FILE = {
name: _('/some_directive.js'),
contents: `
import * as core from '@angular/core';
class SomeDirective {
}
SomeDirective.decorators = [
{ type: core.Directive, args: [{ selector: '[someDirective]' },] }
];
`
};
INDEX_SIGNATURE_PROP_FILE = {
name: _('/index_signature_prop.d.ts'),
contents: `
abstract class IndexSignatureClass {
[key: string]: any;
}
`,
};
});
describe('getDecoratorsOfDeclaration()', () => {
it('should find the decorators on a class', () => {
loadTestFiles([SOME_DIRECTIVE_FILE]);
const bundle = makeTestBundleProgram(SOME_DIRECTIVE_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SOME_DIRECTIVE_FILE.name, 'SomeDirective', isNamedClassDeclaration);
const decorators = host.getDecoratorsOfDeclaration(classNode)!;
expect(decorators).toBeDefined();
expect(decorators.length).toEqual(1);
const decorator = decorators[0];
expect(decorator.name).toEqual('Directive');
expect(decorator.import).toEqual({name: 'Directive', from: '@angular/core'});
expect(decorator.args!.map(arg => arg.getText())).toEqual([
'{ selector: \'[someDirective]\' }',
]);
});
it('should find the decorators on an aliased class', () => {
loadTestFiles([CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(CLASS_EXPRESSION_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, CLASS_EXPRESSION_FILE.name, 'AliasedClass', isNamedVariableDeclaration);
const decorators = host.getDecoratorsOfDeclaration(classNode)!;
expect(decorators).toBeDefined();
expect(decorators.length).toEqual(1);
const decorator = decorators[0];
expect(decorator.name).toEqual('Directive');
expect(decorator.import).toEqual({name: 'Directive', from: '@angular/core'});
expect(decorator.args!.map(arg => arg.getText())).toEqual([
'{ selector: \'[someDirective]\' }',
]);
});
it('should find the decorators on an aliased wrapped class', () => {
loadTestFiles([WRAPPED_CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(WRAPPED_CLASS_EXPRESSION_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, WRAPPED_CLASS_EXPRESSION_FILE.name, 'AliasedWrappedClass',
isNamedVariableDeclaration);
const decorators = host.getDecoratorsOfDeclaration(classNode)!;
expect(decorators).not.toBe(null!);
expect(decorators.length).toEqual(1);
const decorator = decorators[0];
expect(decorator.name).toEqual('Directive');
expect(decorator.import).toEqual({name: 'Directive', from: '@angular/core'});
expect(decorator.args!.map(arg => arg.getText())).toEqual([
'{ selector: \'[someDirective]\' }',
]);
});
it('should return null if the symbol is not a class', () => {
loadTestFiles([FOO_FUNCTION_FILE]);
const bundle = makeTestBundleProgram(FOO_FUNCTION_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const functionNode = getDeclaration(
bundle.program, FOO_FUNCTION_FILE.name, 'foo', isNamedFunctionDeclaration);
const decorators = host.getDecoratorsOfDeclaration(functionNode);
expect(decorators).toBe(null);
});
it('should return null if there are no decorators', () => {
loadTestFiles([SIMPLE_CLASS_FILE]);
const bundle = makeTestBundleProgram(SIMPLE_CLASS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SIMPLE_CLASS_FILE.name, 'EmptyClass', isNamedClassDeclaration);
const decorators = host.getDecoratorsOfDeclaration(classNode);
expect(decorators).toBe(null);
});
it('should ignore `decorators` if it is not an array literal', () => {
loadTestFiles([INVALID_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_DECORATORS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_DECORATORS_FILE.name, 'NotArrayLiteral',
isNamedClassDeclaration);
const decorators = host.getDecoratorsOfDeclaration(classNode);
expect(decorators).toEqual([]);
});
it('should ignore decorator elements that are not object literals', () => {
loadTestFiles([INVALID_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_DECORATORS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_DECORATORS_FILE.name, 'NotObjectLiteral',
isNamedClassDeclaration);
const decorators = host.getDecoratorsOfDeclaration(classNode)!;
expect(decorators.length).toBe(1);
expect(decorators[0]).toEqual(jasmine.objectContaining({name: 'Directive'}));
});
it('should ignore decorator elements that have no `type` property', () => {
loadTestFiles([INVALID_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_DECORATORS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_DECORATORS_FILE.name, 'NoTypeProperty',
isNamedClassDeclaration);
const decorators = host.getDecoratorsOfDeclaration(classNode)!;
expect(decorators.length).toBe(1);
expect(decorators[0]).toEqual(jasmine.objectContaining({name: 'Directive'}));
});
it('should ignore decorator elements whose `type` value is not an identifier', () => {
loadTestFiles([INVALID_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_DECORATORS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_DECORATORS_FILE.name, 'NotIdentifier', isNamedClassDeclaration);
const decorators = host.getDecoratorsOfDeclaration(classNode)!;
expect(decorators.length).toBe(1);
expect(decorators[0]).toEqual(jasmine.objectContaining({name: 'Directive'}));
});
it('should have import information on decorators', () => {
loadTestFiles([SOME_DIRECTIVE_FILE]);
const bundle = makeTestBundleProgram(SOME_DIRECTIVE_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SOME_DIRECTIVE_FILE.name, 'SomeDirective', isNamedClassDeclaration);
const decorators = host.getDecoratorsOfDeclaration(classNode)!;
expect(decorators.length).toEqual(1);
expect(decorators[0].import).toEqual({name: 'Directive', from: '@angular/core'});
});
describe('(returned decorators `args`)', () => {
it('should be an empty array if decorator has no `args` property', () => {
loadTestFiles([INVALID_DECORATOR_ARGS_FILE]);
const bundle = makeTestBundleProgram(INVALID_DECORATOR_ARGS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_DECORATOR_ARGS_FILE.name, 'NoArgsProperty',
isNamedClassDeclaration);
const decorators = host.getDecoratorsOfDeclaration(classNode)!;
expect(decorators.length).toBe(1);
expect(decorators[0].name).toBe('Directive');
expect(decorators[0].args).toEqual([]);
});
it('should be an empty array if decorator\'s `args` has no property assignment', () => {
loadTestFiles([INVALID_DECORATOR_ARGS_FILE]);
const bundle = makeTestBundleProgram(INVALID_DECORATOR_ARGS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_DECORATOR_ARGS_FILE.name, 'NoPropertyAssignment',
isNamedClassDeclaration);
const decorators = host.getDecoratorsOfDeclaration(classNode)!;
expect(decorators.length).toBe(1);
expect(decorators[0].name).toBe('Directive');
expect(decorators[0].args).toEqual([]);
});
it('should be an empty array if `args` property value is not an array literal', () => {
loadTestFiles([INVALID_DECORATOR_ARGS_FILE]);
const bundle = makeTestBundleProgram(INVALID_DECORATOR_ARGS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_DECORATOR_ARGS_FILE.name, 'NotArrayLiteral',
isNamedClassDeclaration);
const decorators = host.getDecoratorsOfDeclaration(classNode)!;
expect(decorators.length).toBe(1);
expect(decorators[0].name).toBe('Directive');
expect(decorators[0].args).toEqual([]);
});
});
});
describe('getMembersOfClass()', () => {
it('should find decorated properties on a class', () => {
loadTestFiles([SOME_DIRECTIVE_FILE]);
const bundle = makeTestBundleProgram(SOME_DIRECTIVE_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SOME_DIRECTIVE_FILE.name, 'SomeDirective', isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
const input1 = members.find(member => member.name === 'input1')!;
expect(input1.kind).toEqual(ClassMemberKind.Property);
expect(input1.isStatic).toEqual(false);
expect(input1.decorators!.map(d => d.name)).toEqual(['Input']);
expect(input1.decorators![0].import).toEqual({name: 'Input', from: '@angular/core'});
const input2 = members.find(member => member.name === 'input2')!;
expect(input2.kind).toEqual(ClassMemberKind.Property);
expect(input2.isStatic).toEqual(false);
expect(input2.decorators!.map(d => d.name)).toEqual(['Input']);
expect(input2.decorators![0].import).toEqual({name: 'Input', from: '@angular/core'});
});
it('should find non decorated properties on a class', () => {
loadTestFiles([SOME_DIRECTIVE_FILE]);
const bundle = makeTestBundleProgram(SOME_DIRECTIVE_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SOME_DIRECTIVE_FILE.name, 'SomeDirective', isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
const instanceProperty = members.find(member => member.name === 'instanceProperty')!;
expect(instanceProperty.kind).toEqual(ClassMemberKind.Property);
expect(instanceProperty.isStatic).toEqual(false);
expect(ts.isBinaryExpression(instanceProperty.implementation!)).toEqual(true);
expect(instanceProperty.value!.getText()).toEqual(`'instance'`);
});
it('should handle equally named getter/setter pairs correctly', () => {
loadTestFiles([ACCESSORS_FILE]);
const bundle = makeTestBundleProgram(ACCESSORS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, ACCESSORS_FILE.name, 'SomeDirective', isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
const [combinedSetter, combinedGetter] =
members.filter(member => member.name === 'setterAndGetter');
expect(combinedSetter.kind).toEqual(ClassMemberKind.Setter);
expect(combinedSetter.isStatic).toEqual(false);
expect(ts.isSetAccessor(combinedSetter.implementation!)).toEqual(true);
expect(combinedSetter.value).toBeNull();
expect(combinedSetter.decorators!.map(d => d.name)).toEqual(['Input']);
expect(combinedGetter.kind).toEqual(ClassMemberKind.Getter);
expect(combinedGetter.isStatic).toEqual(false);
expect(ts.isGetAccessor(combinedGetter.implementation!)).toEqual(true);
expect(combinedGetter.value).toBeNull();
expect(combinedGetter.decorators!.map(d => d.name)).toEqual([]);
});
it('should find static methods on a class', () => {
loadTestFiles([SOME_DIRECTIVE_FILE]);
const bundle = makeTestBundleProgram(SOME_DIRECTIVE_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SOME_DIRECTIVE_FILE.name, 'SomeDirective', isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
const staticMethod = members.find(member => member.name === 'staticMethod')!;
expect(staticMethod.kind).toEqual(ClassMemberKind.Method);
expect(staticMethod.isStatic).toEqual(true);
expect(ts.isMethodDeclaration(staticMethod.implementation!)).toEqual(true);
});
it('should find static properties on a class', () => {
loadTestFiles([SOME_DIRECTIVE_FILE]);
const bundle = makeTestBundleProgram(SOME_DIRECTIVE_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SOME_DIRECTIVE_FILE.name, 'SomeDirective', isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
const staticProperty = members.find(member => member.name === 'staticProperty')!;
expect(staticProperty.kind).toEqual(ClassMemberKind.Property);
expect(staticProperty.isStatic).toEqual(true);
expect(ts.isPropertyAccessExpression(staticProperty.implementation!)).toEqual(true);
expect(staticProperty.value!.getText()).toEqual(`'static'`);
});
it('should ignore index signature properties', () => {
loadTestFiles([INDEX_SIGNATURE_PROP_FILE]);
const logger = new MockLogger();
const bundle = makeTestBundleProgram(INDEX_SIGNATURE_PROP_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(logger, false, bundle));
const classNode = getDeclaration(
bundle.program, INDEX_SIGNATURE_PROP_FILE.name, 'IndexSignatureClass',
isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
expect(members).toEqual([]);
expect(logger.logs.warn).toEqual([]);
});
it('should throw if the symbol is not a class', () => {
loadTestFiles([FOO_FUNCTION_FILE]);
const bundle = makeTestBundleProgram(FOO_FUNCTION_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const functionNode = getDeclaration(
bundle.program, FOO_FUNCTION_FILE.name, 'foo', isNamedFunctionDeclaration);
expect(() => {
host.getMembersOfClass(functionNode);
}).toThrowError(`Attempted to get members of a non-class: "function foo() {}"`);
});
it('should return an empty array if there are no prop decorators', () => {
loadTestFiles([SIMPLE_CLASS_FILE]);
const bundle = makeTestBundleProgram(SIMPLE_CLASS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SIMPLE_CLASS_FILE.name, 'EmptyClass', isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
expect(members).toEqual([]);
});
it('should not process decorated properties in `propDecorators` if it is not an object literal',
() => {
loadTestFiles([INVALID_PROP_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_PROP_DECORATORS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_PROP_DECORATORS_FILE.name, 'NotObjectLiteral',
isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
expect(members.map(member => member.name)).not.toContain('prop');
});
it('should ignore prop decorator elements that are not object literals', () => {
loadTestFiles([INVALID_PROP_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_PROP_DECORATORS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_PROP_DECORATORS_FILE.name, 'NotObjectLiteralProp',
isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
const prop = members.find(m => m.name === 'prop')!;
const decorators = prop.decorators!;
expect(decorators.length).toBe(1);
expect(decorators[0]).toEqual(jasmine.objectContaining({name: 'Input'}));
});
it('should ignore prop decorator elements that have no `type` property', () => {
loadTestFiles([INVALID_PROP_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_PROP_DECORATORS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_PROP_DECORATORS_FILE.name, 'NoTypeProperty',
isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
const prop = members.find(m => m.name === 'prop')!;
const decorators = prop.decorators!;
expect(decorators.length).toBe(1);
expect(decorators[0]).toEqual(jasmine.objectContaining({name: 'Input'}));
});
it('should ignore prop decorator elements whose `type` value is not an identifier', () => {
loadTestFiles([INVALID_PROP_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_PROP_DECORATORS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_PROP_DECORATORS_FILE.name, 'NotIdentifier',
isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
const prop = members.find(m => m.name === 'prop')!;
const decorators = prop.decorators!;
expect(decorators.length).toBe(1);
expect(decorators[0]).toEqual(jasmine.objectContaining({name: 'Input'}));
});
describe('(returned prop decorators `args`)', () => {
it('should be an empty array if prop decorator has no `args` property', () => {
loadTestFiles([INVALID_PROP_DECORATOR_ARGS_FILE]);
const bundle = makeTestBundleProgram(INVALID_PROP_DECORATOR_ARGS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_PROP_DECORATOR_ARGS_FILE.name, 'NoArgsProperty',
isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
const prop = members.find(m => m.name === 'prop')!;
const decorators = prop.decorators!;
expect(decorators.length).toBe(1);
expect(decorators[0].name).toBe('Input');
expect(decorators[0].args).toEqual([]);
});
it('should be an empty array if prop decorator\'s `args` has no property assignment',
() => {
loadTestFiles([INVALID_PROP_DECORATOR_ARGS_FILE]);
const bundle = makeTestBundleProgram(INVALID_PROP_DECORATOR_ARGS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_PROP_DECORATOR_ARGS_FILE.name, 'NoPropertyAssignment',
isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
const prop = members.find(m => m.name === 'prop')!;
const decorators = prop.decorators!;
expect(decorators.length).toBe(1);
expect(decorators[0].name).toBe('Input');
expect(decorators[0].args).toEqual([]);
});
it('should be an empty array if `args` property value is not an array literal', () => {
loadTestFiles([INVALID_PROP_DECORATOR_ARGS_FILE]);
const bundle = makeTestBundleProgram(INVALID_PROP_DECORATOR_ARGS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_PROP_DECORATOR_ARGS_FILE.name, 'NotArrayLiteral',
isNamedClassDeclaration);
const members = host.getMembersOfClass(classNode);
const prop = members.find(m => m.name === 'prop')!;
const decorators = prop.decorators!;
expect(decorators.length).toBe(1);
expect(decorators[0].name).toBe('Input');
expect(decorators[0].args).toEqual([]);
});
});
});
describe('getConstructorParameters()', () => {
it('should retain imported name for type value references for decorated constructor parameter types',
() => {
const files = [
{
name: _('/node_modules/shared-lib/foo.d.ts'),
contents: `
declare class Foo {}
export {Foo as Bar};
`,
},
{
name: _('/node_modules/shared-lib/index.d.ts'),
contents: `
export {Bar as Baz} from './foo';
`,
},
{
name: _('/local.js'),
contents: `
class Internal {}
export {Internal as External};
`
},
{
name: _('/main.js'),
contents: `
import {Baz} from 'shared-lib';
import {External} from './local';
export class SameFile {}
export class SomeClass {
constructor(arg1, arg2, arg3) {}
}
SomeClass.ctorParameters = [{ type: Baz }, { type: External }, { type: SameFile }];
`,
},
];
loadTestFiles(files);
const bundle = makeTestBundleProgram(_('/main.js'));
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode =
getDeclaration(bundle.program, _('/main.js'), 'SomeClass', isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode)!;
expect(parameters.map(p => p.name)).toEqual(['arg1', 'arg2', 'arg3']);
expectTypeValueReferencesForParameters(
parameters, ['Baz', 'External', 'SameFile'], ['shared-lib', './local', null]);
});
it('should find the decorated constructor parameters', () => {
loadFakeCore(getFileSystem());
loadTestFiles([SOME_DIRECTIVE_FILE]);
const bundle = makeTestBundleProgram(SOME_DIRECTIVE_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SOME_DIRECTIVE_FILE.name, 'SomeDirective', isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode)!;
expect(parameters).toBeDefined();
expect(parameters.map(parameter => parameter.name)).toEqual([
'_viewContainer', '_template', 'injected'
]);
expectTypeValueReferencesForParameters(
parameters, ['ViewContainerRef', 'TemplateRef', null],
['@angular/core', '@angular/core', null]);
});
it('should accept `ctorParameters` as an array', () => {
loadTestFiles([CTOR_DECORATORS_ARRAY_FILE]);
const bundle = makeTestBundleProgram(CTOR_DECORATORS_ARRAY_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, CTOR_DECORATORS_ARRAY_FILE.name, 'CtorDecoratedAsArray',
isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode)!;
expect(parameters).toBeDefined();
expect(parameters.map(parameter => parameter.name)).toEqual(['arg1']);
expectTypeValueReferencesForParameters(parameters, ['ParamType']);
});
it('should throw if the symbol is not a class', () => {
loadTestFiles([FOO_FUNCTION_FILE]);
const bundle = makeTestBundleProgram(FOO_FUNCTION_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const functionNode = getDeclaration(
bundle.program, FOO_FUNCTION_FILE.name, 'foo', isNamedFunctionDeclaration);
expect(() => {
host.getConstructorParameters(functionNode);
})
.toThrowError(
'Attempted to get constructor parameters of a non-class: "function foo() {}"');
});
it('should return `null` if there is no constructor', () => {
loadTestFiles([SIMPLE_CLASS_FILE]);
const bundle = makeTestBundleProgram(SIMPLE_CLASS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SIMPLE_CLASS_FILE.name, 'EmptyClass', isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode);
expect(parameters).toBe(null);
});
it('should return an array even if there are no decorators', () => {
loadTestFiles([SIMPLE_CLASS_FILE]);
const bundle = makeTestBundleProgram(SIMPLE_CLASS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SIMPLE_CLASS_FILE.name, 'NoDecoratorConstructorClass',
isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode)!;
expect(parameters).toEqual(jasmine.any(Array));
expect(parameters.length).toEqual(1);
expect(parameters[0].name).toEqual('foo');
expect(parameters[0].decorators).toBe(null);
});
it('should return an empty array if there are no constructor parameters', () => {
loadTestFiles([INVALID_CTOR_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_CTOR_DECORATORS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_CTOR_DECORATORS_FILE.name, 'NoParameters',
isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode);
expect(parameters).toEqual([]);
});
it('should ignore decorators that are not imported from core', () => {
loadTestFiles([INVALID_CTOR_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_CTOR_DECORATORS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_CTOR_DECORATORS_FILE.name, 'NotFromCore',
isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode)!;
expect(parameters.length).toBe(1);
expect(parameters[0]).toEqual(jasmine.objectContaining<CtorParameter>({
name: 'arg1',
decorators: [],
}));
});
it('should ignore `ctorParameters` if it is not an arrow function', () => {
loadTestFiles([INVALID_CTOR_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_CTOR_DECORATORS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_CTOR_DECORATORS_FILE.name, 'NotArrowFunction',
isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode)!;
expect(parameters.length).toBe(1);
expect(parameters[0]).toEqual(jasmine.objectContaining<CtorParameter>({
name: 'arg1',
decorators: null,
}));
});
it('should ignore `ctorParameters` if it does not return an array literal', () => {
loadTestFiles([INVALID_CTOR_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_CTOR_DECORATORS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_CTOR_DECORATORS_FILE.name, 'NotArrayLiteral',
isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode)!;
expect(parameters.length).toBe(1);
expect(parameters[0]).toEqual(jasmine.objectContaining<CtorParameter>({
name: 'arg1',
decorators: null,
}));
});
describe('synthesized constructors', () => {
function getConstructorParameters(constructor: string) {
const file = {
name: _('/synthesized_constructors.js'),
contents: `
class BaseClass {}
class TestClass extends BaseClass {
${constructor}
}
`,
};
loadTestFiles([file]);
const bundle = makeTestBundleProgram(file.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode =
getDeclaration(bundle.program, file.name, 'TestClass', isNamedClassDeclaration);
return host.getConstructorParameters(classNode);
}
it('recognizes super call as first statement', () => {
const parameters = getConstructorParameters(`
constructor() {
super(...arguments);
this.synthesizedProperty = null;
}`);
expect(parameters).toBeNull();
});
it('does not consider super call without spread element as synthesized', () => {
const parameters = getConstructorParameters(`
constructor() {
super(arguments);
}`);
expect(parameters!.length).toBe(0);
});
it('does not consider constructors with parameters as synthesized', () => {
const parameters = getConstructorParameters(`
constructor(arg) {
super(...arguments);
}`);
expect(parameters!.length).toBe(1);
});
it('does not consider manual super calls as synthesized', () => {
const parameters = getConstructorParameters(`
constructor() {
super();
}`);
expect(parameters!.length).toBe(0);
});
it('does not consider empty constructors as synthesized', () => {
const parameters = getConstructorParameters(`
constructor() {
}`);
expect(parameters!.length).toBe(0);
});
});
describe('(returned parameters `decorators`)', () => {
it('should ignore param decorator elements that are not object literals', () => {
loadTestFiles([INVALID_CTOR_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_CTOR_DECORATORS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_CTOR_DECORATORS_FILE.name, 'NotObjectLiteral',
isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode);
expect(parameters!.length).toBe(2);
expect(parameters![0]).toEqual(jasmine.objectContaining<CtorParameter>({
name: 'arg1',
decorators: null,
}));
expect(parameters![1]).toEqual(jasmine.objectContaining<CtorParameter>({
name: 'arg2',
decorators: jasmine.any(Array) as any
}));
});
it('should ignore param decorator elements that have no `type` property', () => {
loadTestFiles([INVALID_CTOR_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_CTOR_DECORATORS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_CTOR_DECORATORS_FILE.name, 'NoTypeProperty',
isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode);
const decorators = parameters![0].decorators!;
expect(decorators.length).toBe(1);
expect(decorators[0]).toEqual(jasmine.objectContaining({name: 'Inject'}));
});
it('should ignore param decorator elements whose `type` value is not an identifier', () => {
loadTestFiles([INVALID_CTOR_DECORATORS_FILE]);
const bundle = makeTestBundleProgram(INVALID_CTOR_DECORATORS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_CTOR_DECORATORS_FILE.name, 'NotIdentifier',
isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode);
const decorators = parameters![0].decorators!;
expect(decorators.length).toBe(1);
expect(decorators[0]).toEqual(jasmine.objectContaining({name: 'Inject'}));
});
it('should have import information on decorators', () => {
loadTestFiles([SOME_DIRECTIVE_FILE]);
const bundle = makeTestBundleProgram(SOME_DIRECTIVE_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SOME_DIRECTIVE_FILE.name, 'SomeDirective', isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode)!;
const decorators = parameters[2].decorators!;
expect(decorators.length).toEqual(1);
expect(decorators[0].import).toEqual({name: 'Inject', from: '@angular/core'});
});
});
describe('(returned parameters `decorators.args`)', () => {
it('should be an empty array if param decorator has no `args` property', () => {
loadTestFiles([INVALID_CTOR_DECORATOR_ARGS_FILE]);
const bundle = makeTestBundleProgram(INVALID_CTOR_DECORATOR_ARGS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_CTOR_DECORATOR_ARGS_FILE.name, 'NoArgsProperty',
isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode);
expect(parameters!.length).toBe(1);
const decorators = parameters![0].decorators!;
expect(decorators.length).toBe(1);
expect(decorators[0].name).toBe('Inject');
expect(decorators[0].args).toEqual([]);
});
it('should be an empty array if param decorator\'s `args` has no property assignment',
() => {
loadTestFiles([INVALID_CTOR_DECORATOR_ARGS_FILE]);
const bundle = makeTestBundleProgram(INVALID_CTOR_DECORATOR_ARGS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_CTOR_DECORATOR_ARGS_FILE.name, 'NoPropertyAssignment',
isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode);
const decorators = parameters![0].decorators!;
expect(decorators.length).toBe(1);
expect(decorators[0].name).toBe('Inject');
expect(decorators[0].args).toEqual([]);
});
it('should be an empty array if `args` property value is not an array literal', () => {
loadTestFiles([INVALID_CTOR_DECORATOR_ARGS_FILE]);
const bundle = makeTestBundleProgram(INVALID_CTOR_DECORATOR_ARGS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, INVALID_CTOR_DECORATOR_ARGS_FILE.name, 'NotArrayLiteral',
isNamedClassDeclaration);
const parameters = host.getConstructorParameters(classNode);
const decorators = parameters![0].decorators!;
expect(decorators.length).toBe(1);
expect(decorators[0].name).toBe('Inject');
expect(decorators[0].args).toEqual([]);
});
});
});
describe('getDefinitionOfFunction()', () => {
it('should return an object describing the function declaration passed as an argument',
() => {
loadTestFiles([FUNCTION_BODY_FILE]);
const bundle = makeTestBundleProgram(FUNCTION_BODY_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const fooNode = getDeclaration(
bundle.program, FUNCTION_BODY_FILE.name, 'foo', isNamedFunctionDeclaration)!;
const fooDef = host.getDefinitionOfFunction(fooNode)!;
expect(fooDef.node).toBe(fooNode);
expect(fooDef.body!.length).toEqual(1);
expect(fooDef.body![0].getText()).toEqual(`return x;`);
expect(fooDef.parameters.length).toEqual(1);
expect(fooDef.parameters[0].name).toEqual('x');
expect(fooDef.parameters[0].initializer).toBe(null);
const barNode = getDeclaration(
bundle.program, FUNCTION_BODY_FILE.name, 'bar', isNamedFunctionDeclaration)!;
const barDef = host.getDefinitionOfFunction(barNode)!;
expect(barDef.node).toBe(barNode);
expect(barDef.body!.length).toEqual(1);
expect(ts.isReturnStatement(barDef.body![0])).toBeTruthy();
expect(barDef.body![0].getText()).toEqual(`return x + y;`);
expect(barDef.parameters.length).toEqual(2);
expect(barDef.parameters[0].name).toEqual('x');
expect(fooDef.parameters[0].initializer).toBe(null);
expect(barDef.parameters[1].name).toEqual('y');
expect(barDef.parameters[1].initializer!.getText()).toEqual('42');
const bazNode = getDeclaration(
bundle.program, FUNCTION_BODY_FILE.name, 'baz', isNamedFunctionDeclaration)!;
const bazDef = host.getDefinitionOfFunction(bazNode)!;
expect(bazDef.node).toBe(bazNode);
expect(bazDef.body!.length).toEqual(3);
expect(bazDef.parameters.length).toEqual(1);
expect(bazDef.parameters[0].name).toEqual('x');
expect(bazDef.parameters[0].initializer).toBe(null);
const quxNode = getDeclaration(
bundle.program, FUNCTION_BODY_FILE.name, 'qux', isNamedFunctionDeclaration)!;
const quxDef = host.getDefinitionOfFunction(quxNode)!;
expect(quxDef.node).toBe(quxNode);
expect(quxDef.body!.length).toEqual(2);
expect(quxDef.parameters.length).toEqual(1);
expect(quxDef.parameters[0].name).toEqual('x');
expect(quxDef.parameters[0].initializer).toBe(null);
const mooNode = getDeclaration(
bundle.program, FUNCTION_BODY_FILE.name, 'moo', isNamedFunctionDeclaration)!;
const mooDef = host.getDefinitionOfFunction(mooNode)!;
expect(mooDef.node).toBe(mooNode);
expect(mooDef.body!.length).toEqual(3);
expect(mooDef.parameters).toEqual([]);
const juuNode = getDeclaration(
bundle.program, FUNCTION_BODY_FILE.name, 'juu', isNamedFunctionDeclaration)!;
const juuDef = host.getDefinitionOfFunction(juuNode)!;
expect(juuDef.node).toBe(juuNode);
expect(juuDef.body!.length).toEqual(2);
expect(juuDef.parameters).toEqual([]);
});
});
describe('getImportOfIdentifier()', () => {
it('should find the import of an identifier', () => {
loadTestFiles(IMPORTS_FILES);
const bundle = makeTestBundleProgram(_('/index.js'));
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const variableNode =
getDeclaration(bundle.program, _('/b.js'), 'b', isNamedVariableDeclaration);
const importOfIdent = host.getImportOfIdentifier(variableNode.initializer as ts.Identifier);
expect(importOfIdent).toEqual({name: 'a', from: './a.js'});
});
it('should find the name by which the identifier was exported, not imported', () => {
loadTestFiles(IMPORTS_FILES);
const bundle = makeTestBundleProgram(_('/index.js'));
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const variableNode =
getDeclaration(bundle.program, _('/b.js'), 'c', isNamedVariableDeclaration);
const importOfIdent = host.getImportOfIdentifier(variableNode.initializer as ts.Identifier);
expect(importOfIdent).toEqual({name: 'a', from: './a.js'});
});
it('should return null if the identifier was not imported', () => {
loadTestFiles(IMPORTS_FILES);
const bundle = makeTestBundleProgram(_('/index.js'));
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const variableNode =
getDeclaration(bundle.program, _('/b.js'), 'd', isNamedVariableDeclaration);
const importOfIdent = host.getImportOfIdentifier(variableNode.initializer as ts.Identifier);
expect(importOfIdent).toBeNull();
});
});
describe('getDeclarationOfIdentifier()', () => {
it('should return the declaration of a locally defined identifier', () => {
loadFakeCore(getFileSystem());
loadTestFiles([SOME_DIRECTIVE_FILE]);
const bundle = makeTestBundleProgram(SOME_DIRECTIVE_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SOME_DIRECTIVE_FILE.name, 'SomeDirective', isNamedClassDeclaration);
const actualDeclaration = host.getDeclarationOfIdentifier(classNode.name);
expect(actualDeclaration).not.toBe(null);
expect(actualDeclaration!.node).toBe(classNode);
expect(actualDeclaration!.viaModule).toBe(null);
expect((actualDeclaration as ConcreteDeclaration).identity).toBe(null);
});
it('should return the declaration of an externally defined identifier', () => {
loadFakeCore(getFileSystem());
loadTestFiles([SOME_DIRECTIVE_FILE]);
const bundle = makeTestBundleProgram(SOME_DIRECTIVE_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, SOME_DIRECTIVE_FILE.name, 'SomeDirective', isNamedClassDeclaration);
const classDecorators = host.getDecoratorsOfDeclaration(classNode)!;
const identifierOfDirective =
((classDecorators[0].node as ts.ObjectLiteralExpression).properties[0] as
ts.PropertyAssignment)
.initializer as ts.Identifier;
const expectedDeclarationNode = getDeclaration(
bundle.program, _('/node_modules/@angular/core/index.d.ts'), 'Directive',
isNamedVariableDeclaration);
const actualDeclaration = host.getDeclarationOfIdentifier(identifierOfDirective);
expect(actualDeclaration).not.toBe(null);
expect(actualDeclaration!.node).toBe(expectedDeclarationNode);
expect(actualDeclaration!.viaModule).toBe('@angular/core');
});
it('should return the source-file of an import namespace', () => {
loadFakeCore(getFileSystem());
loadTestFiles([NAMESPACED_IMPORT_FILE]);
const bundle = makeTestBundleProgram(NAMESPACED_IMPORT_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode = getDeclaration(
bundle.program, NAMESPACED_IMPORT_FILE.name, 'SomeDirective', ts.isClassDeclaration);
const classDecorators = host.getDecoratorsOfDeclaration(classNode)!;
const identifier =
(((classDecorators[0].node as ts.ObjectLiteralExpression).properties[0] as
ts.PropertyAssignment)
.initializer as ts.PropertyAccessExpression)
.expression as ts.Identifier;
const expectedDeclarationNode =
getSourceFileOrError(bundle.program, _('/node_modules/@angular/core/index.d.ts'));
const actualDeclaration = host.getDeclarationOfIdentifier(identifier);
expect(actualDeclaration).not.toBe(null);
expect(actualDeclaration!.node).toBe(expectedDeclarationNode);
expect(actualDeclaration!.viaModule).toBe('@angular/core');
});
it('should return the original declaration of an aliased class', () => {
loadTestFiles([CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(CLASS_EXPRESSION_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classDeclaration = getDeclaration(
bundle.program, CLASS_EXPRESSION_FILE.name, 'AliasedClass', ts.isVariableDeclaration);
const usageOfAliasedClass = getDeclaration(
bundle.program, CLASS_EXPRESSION_FILE.name, 'usageOfAliasedClass',
ts.isVariableDeclaration);
const aliasedClassIdentifier = usageOfAliasedClass.initializer as ts.Identifier;
expect(aliasedClassIdentifier.text).toBe('AliasedClass_1');
expect(host.getDeclarationOfIdentifier(aliasedClassIdentifier)!.node)
.toBe(classDeclaration);
});
it('should return the original declaration of a wrapped aliased class', () => {
loadTestFiles([WRAPPED_CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(WRAPPED_CLASS_EXPRESSION_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classDeclaration = getDeclaration(
bundle.program, WRAPPED_CLASS_EXPRESSION_FILE.name, 'AliasedWrappedClass',
ts.isVariableDeclaration);
const usageOfWrappedClass = getDeclaration(
bundle.program, WRAPPED_CLASS_EXPRESSION_FILE.name, 'usageOfWrappedClass',
ts.isVariableDeclaration);
const aliasedClassIdentifier = usageOfWrappedClass.initializer as ts.Identifier;
expect(aliasedClassIdentifier.text).toBe('AliasedWrappedClass_1');
expect(host.getDeclarationOfIdentifier(aliasedClassIdentifier)!.node)
.toBe(classDeclaration);
});
it('should return the correct declaration for an inner class identifier inside an IIFE',
() => {
loadTestFiles([SIMPLE_CLASS_FILE]);
const bundle = makeTestBundleProgram(SIMPLE_CLASS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const outerDeclaration = getDeclaration(
bundle.program, SIMPLE_CLASS_FILE.name, 'SimpleWrappedClass',
isNamedVariableDeclaration);
const innerDeclaration =
((((outerDeclaration.initializer as ts.CallExpression).expression as
ts.ParenthesizedExpression)
.expression as ts.ArrowFunction)
.body as ts.Block)
.statements[0] as ts.ClassDeclaration;
const outerIdentifier = outerDeclaration.name as ts.Identifier;
const innerIdentifier = innerDeclaration.name as ts.Identifier;
expect(host.getDeclarationOfIdentifier(outerIdentifier)!.node).toBe(outerDeclaration);
expect(host.getDeclarationOfIdentifier(innerIdentifier)!.node).toBe(outerDeclaration);
});
it('should return the correct declaration for an aliased class identifier inside an IIFE',
() => {
loadTestFiles([WRAPPED_CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(WRAPPED_CLASS_EXPRESSION_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classDeclaration = getDeclaration(
bundle.program, WRAPPED_CLASS_EXPRESSION_FILE.name, 'DecoratedWrappedClass',
ts.isVariableDeclaration);
const innerClassDeclarations =
walkForDeclarations('InnerDecoratedWrappedClass', classDeclaration);
if (innerClassDeclarations.length === 0) {
throw new Error('Expected InnerDecoratedWrappedClass to exist');
}
const aliasedClassIdentifier =
(innerClassDeclarations[0].parent as ts.BinaryExpression).left as ts.Identifier;
expect(aliasedClassIdentifier.text).toBe('DecoratedWrappedClass_1');
const d = host.getDeclarationOfIdentifier(aliasedClassIdentifier);
expect(d!.node).toBe(classDeclaration);
});
it('should recognize enum declarations with string values', () => {
const testFile: TestFile = {
name: _('/node_modules/test-package/some/file.js'),
contents: `
export var Enum;
(function (Enum) {
Enum["ValueA"] = "1";
Enum["ValueB"] = "2";
})(Enum || (Enum = {}));
var value = Enum;`
};
loadTestFiles([testFile]);
const bundle = makeTestBundleProgram(testFile.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const valueDecl = getDeclaration(
bundle.program, _('/node_modules/test-package/some/file.js'), 'value',
ts.isVariableDeclaration);
const declaration = host.getDeclarationOfIdentifier(
valueDecl.initializer as ts.Identifier) as ConcreteDeclaration;
expect(declaration.node.parent.parent.getText()).toBe('export var Enum;');
const enumMembers = (declaration.identity as DownleveledEnum).enumMembers;
expect(enumMembers!.length).toBe(2);
expect(enumMembers![0].name.getText()).toBe('"ValueA"');
expect(enumMembers![0].initializer!.getText()).toBe('"1"');
expect(enumMembers![1].name.getText()).toBe('"ValueB"');
expect(enumMembers![1].initializer!.getText()).toBe('"2"');
});
it('should recognize enum declarations with numeric values', () => {
const testFile: TestFile = {
name: _('/node_modules/test-package/some/file.js'),
contents: `
export var Enum;
(function (Enum) {
Enum[Enum["ValueA"] = "1"] = "ValueA";
Enum[Enum["ValueB"] = "2"] = "ValueB";
})(Enum || (Enum = {}));
var value = Enum;`
};
loadTestFiles([testFile]);
const bundle = makeTestBundleProgram(testFile.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const valueDecl = getDeclaration(
bundle.program, _('/node_modules/test-package/some/file.js'), 'value',
ts.isVariableDeclaration);
const declaration = host.getDeclarationOfIdentifier(
valueDecl.initializer as ts.Identifier) as ConcreteDeclaration;
const enumMembers = (declaration.identity as DownleveledEnum).enumMembers;
expect(declaration.node.parent.parent.getText()).toBe('export var Enum;');
expect(enumMembers!.length).toBe(2);
expect(enumMembers![0].name.getText()).toBe('"ValueA"');
expect(enumMembers![0].initializer!.getText()).toBe('"1"');
expect(enumMembers![1].name.getText()).toBe('"ValueB"');
expect(enumMembers![1].initializer!.getText()).toBe('"2"');
});
it('should not consider IIFEs that do no assign members to the parameter as an enum declaration',
() => {
const testFile: TestFile = {
name: _('/node_modules/test-package/some/file.js'),
contents: `
export var Enum;
(function (E) {
Enum["ValueA"] = "1";
Enum["ValueB"] = "2";
})(Enum || (Enum = {}));
var value = Enum;`
};
loadTestFiles([testFile]);
const bundle = makeTestBundleProgram(testFile.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const valueDecl = getDeclaration(
bundle.program, _('/node_modules/test-package/some/file.js'), 'value',
ts.isVariableDeclaration);
const declaration = host.getDeclarationOfIdentifier(
valueDecl.initializer as ts.Identifier) as ConcreteDeclaration;
expect(declaration.node.parent.parent.getText()).toBe('export var Enum;');
expect(declaration.identity).toBe(null);
});
it('should not consider IIFEs without call argument as an enum declaration', () => {
const testFile: TestFile = {
name: _('/node_modules/test-package/some/file.js'),
contents: `
export var Enum;
(function (Enum) {
Enum["ValueA"] = "1";
Enum["ValueB"] = "2";
})();
var value = Enum;`
};
loadTestFiles([testFile]);
const bundle = makeTestBundleProgram(testFile.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const valueDecl = getDeclaration(
bundle.program, _('/node_modules/test-package/some/file.js'), 'value',
ts.isVariableDeclaration);
const declaration = host.getDeclarationOfIdentifier(
valueDecl.initializer as ts.Identifier) as ConcreteDeclaration;
expect(declaration.node.parent.parent.getText()).toBe('export var Enum;');
expect(declaration.identity).toBe(null);
});
});
describe('getExportsOfModule()', () => {
it('should return a map of all the exports from a given module', () => {
loadFakeCore(getFileSystem());
loadTestFiles(EXPORTS_FILES);
const bundle = makeTestBundleProgram(_('/index.js'));
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const file = getSourceFileOrError(bundle.program, _('/b.js'));
const exportDeclarations = host.getExportsOfModule(file);
expect(exportDeclarations).not.toBe(null);
expect(Array.from(exportDeclarations!.keys())).toEqual([
'Directive',
'a',
'b',
'c',
'd',
'e',
'DirectiveX',
'SomeClass',
]);
const values =
Array.from(exportDeclarations!.values())
.map(declaration => [declaration.node!.getText(), declaration.viaModule]);
expect(values).toEqual([
[`Directive: FnWithArg<(clazz: any) => any>`, null],
[`a = 'a'`, null],
[`b = a`, null],
[`c = foo`, null],
[`d = b`, null],
[`e = 'e'`, null],
[`DirectiveX = Directive`, null],
['export class SomeClass {}', null],
]);
});
});
describe('getClassSymbol()', () => {
it('should return the class symbol for an ES2015 class', () => {
loadTestFiles([SIMPLE_CLASS_FILE]);
const bundle = makeTestBundleProgram(SIMPLE_CLASS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const node = getDeclaration(
bundle.program, SIMPLE_CLASS_FILE.name, 'EmptyClass', isNamedClassDeclaration);
const classSymbol = host.getClassSymbol(node);
expect(classSymbol).toBeDefined();
expect(classSymbol!.declaration.valueDeclaration).toBe(node);
expect(classSymbol!.implementation.valueDeclaration).toBe(node);
expect(classSymbol!.adjacent).toBeUndefined();
});
it('should return the class symbol for a class expression (outer variable declaration)',
() => {
loadTestFiles([CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(CLASS_EXPRESSION_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const outerNode = getDeclaration(
bundle.program, CLASS_EXPRESSION_FILE.name, 'EmptyClass',
isNamedVariableDeclaration);
const innerNode = (outerNode.initializer as ts.ClassExpression);
const classSymbol = host.getClassSymbol(outerNode);
expect(classSymbol).toBeDefined();
expect(classSymbol!.declaration.valueDeclaration).toBe(outerNode);
expect(classSymbol!.implementation.valueDeclaration).toBe(innerNode);
expect(classSymbol!.adjacent).toBeUndefined();
});
it('should return the class symbol for a class expression (inner class expression)', () => {
loadTestFiles([CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(CLASS_EXPRESSION_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const outerNode = getDeclaration(
bundle.program, CLASS_EXPRESSION_FILE.name, 'EmptyClass', isNamedVariableDeclaration);
const innerNode = (outerNode.initializer as ts.ClassExpression);
const classSymbol = host.getClassSymbol(innerNode);
expect(classSymbol).toBeDefined();
expect(classSymbol!.declaration.valueDeclaration).toBe(outerNode);
expect(classSymbol!.implementation.valueDeclaration).toBe(innerNode);
expect(classSymbol!.adjacent).toBeUndefined();
});
it('should return the same class symbol (of the outer declaration) for outer and inner declarations',
() => {
loadTestFiles([CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(CLASS_EXPRESSION_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const outerNode = getDeclaration(
bundle.program, CLASS_EXPRESSION_FILE.name, 'EmptyClass',
isNamedVariableDeclaration);
const innerNode = (outerNode.initializer as ts.ClassExpression);
const innerSymbol = host.getClassSymbol(innerNode)!;
const outerSymbol = host.getClassSymbol(outerNode)!;
expect(innerSymbol.declaration).toBe(outerSymbol.declaration);
expect(innerSymbol.implementation).toBe(outerSymbol.implementation);
});
it('should return the class symbol for a wrapped class expression (outer variable declaration)',
() => {
loadTestFiles([WRAPPED_CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(WRAPPED_CLASS_EXPRESSION_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const outerNode = getDeclaration(
bundle.program, WRAPPED_CLASS_EXPRESSION_FILE.name, 'SimpleWrappedClass',
isNamedVariableDeclaration);
const classSymbol = host.getClassSymbol(outerNode);
if (classSymbol === undefined) {
return fail('Expected classSymbol to be defined');
}
expect(classSymbol.name).toEqual('SimpleWrappedClass');
expect(classSymbol.declaration.valueDeclaration).toBe(outerNode);
if (!isNamedClassDeclaration(classSymbol.implementation.valueDeclaration)) {
return fail('Expected a named class declaration');
}
expect(classSymbol.implementation.valueDeclaration.name.text).toBe('SimpleWrappedClass');
expect(classSymbol.adjacent).toBeUndefined();
});
it('should return the class symbol for a wrapped class expression (inner class expression)',
() => {
loadTestFiles([WRAPPED_CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(WRAPPED_CLASS_EXPRESSION_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const outerNode = getDeclaration(
bundle.program, WRAPPED_CLASS_EXPRESSION_FILE.name, 'SimpleWrappedClass',
isNamedVariableDeclaration);
const innerNode = ((outerNode as any).initializer.expression.expression.body as ts.Block)
.statements[0];
const classSymbol = host.getClassSymbol(innerNode);
if (classSymbol === undefined) {
return fail('Expected classSymbol to be defined');
}
expect(classSymbol.name).toEqual('SimpleWrappedClass');
expect(classSymbol.declaration.valueDeclaration).toBe(outerNode);
if (!isNamedClassDeclaration(classSymbol.implementation.valueDeclaration)) {
return fail('Expected a named class declaration');
}
expect(classSymbol.implementation.valueDeclaration.name.text).toBe('SimpleWrappedClass');
expect(classSymbol.adjacent).toBeUndefined();
});
it('should return the same class symbol (of the outer declaration) for wrapped outer and inner declarations',
() => {
loadTestFiles([WRAPPED_CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(WRAPPED_CLASS_EXPRESSION_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const outerNode = getDeclaration(
bundle.program, WRAPPED_CLASS_EXPRESSION_FILE.name, 'SimpleWrappedClass',
isNamedVariableDeclaration);
const innerNode = ((outerNode as any).initializer.expression.expression.body as ts.Block)
.statements[0];
const innerSymbol = host.getClassSymbol(innerNode)!;
const outerSymbol = host.getClassSymbol(outerNode)!;
expect(innerSymbol.declaration).toBe(outerSymbol.declaration);
expect(innerSymbol.implementation).toBe(outerSymbol.implementation);
});
it('should return the class symbol for a decorated wrapped class expression (from the outer variable declaration)',
() => {
loadTestFiles([WRAPPED_CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(WRAPPED_CLASS_EXPRESSION_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const outerNode = getDeclaration(
bundle.program, WRAPPED_CLASS_EXPRESSION_FILE.name, 'DecoratedWrappedClass',
isNamedVariableDeclaration);
const classSymbol = host.getClassSymbol(outerNode);
if (classSymbol === undefined) {
return fail('Expected classSymbol to be defined');
}
expect(classSymbol.name).toEqual('DecoratedWrappedClass');
expect(classSymbol.declaration.valueDeclaration).toBe(outerNode);
if (!ts.isClassExpression(classSymbol.implementation.valueDeclaration)) {
return fail('Expected a named class declaration');
}
expect(classSymbol.implementation.valueDeclaration.name!.text)
.toBe('InnerDecoratedWrappedClass');
if (classSymbol.adjacent === undefined ||
!isNamedVariableDeclaration(classSymbol.adjacent.valueDeclaration)) {
return fail('Expected a named variable declaration for the adjacent symbol');
}
expect(classSymbol.adjacent.valueDeclaration.name.text)
.toBe('AdjacentDecoratedWrappedClass');
});
it('should return the class symbol for a decorated wrapped class expression (from the inner class expression)',
() => {
loadTestFiles([WRAPPED_CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(WRAPPED_CLASS_EXPRESSION_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const outerNode = getDeclaration(
bundle.program, WRAPPED_CLASS_EXPRESSION_FILE.name, 'DecoratedWrappedClass',
isNamedVariableDeclaration);
const innerNodes = walkForDeclarations('InnerDecoratedWrappedClass', outerNode);
if (innerNodes.length === 0) {
throw new Error('Expected to find InnerDecoratedWrappedClass');
}
const classSymbol = host.getClassSymbol(innerNodes[0]);
if (classSymbol === undefined) {
return fail('Expected classSymbol to be defined');
}
expect(classSymbol.name).toEqual('DecoratedWrappedClass');
expect(classSymbol.declaration.valueDeclaration).toBe(outerNode);
expect(classSymbol.implementation.valueDeclaration)
.toBe(innerNodes[0] as ts.Declaration);
if (classSymbol.adjacent === undefined ||
!isNamedVariableDeclaration(classSymbol.adjacent.valueDeclaration)) {
return fail('Expected a named variable declaration for the adjacent symbol');
}
expect(classSymbol.adjacent.valueDeclaration.name.text)
.toBe('AdjacentDecoratedWrappedClass');
});
it('should return the class symbol for a decorated wrapped class expression (from the adjacent class expression)',
() => {
loadTestFiles([WRAPPED_CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(WRAPPED_CLASS_EXPRESSION_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const outerNode = getDeclaration(
bundle.program, WRAPPED_CLASS_EXPRESSION_FILE.name, 'DecoratedWrappedClass',
isNamedVariableDeclaration);
const innerNodes = walkForDeclarations('InnerDecoratedWrappedClass', outerNode);
if (innerNodes.length === 0) {
throw new Error('Expected to find InnerDecoratedWrappedClass');
}
const adjacentNode: ts.ClassExpression =
(outerNode as any)
.initializer.expression.expression.body.statements[0]
.declarationList.declarations[0]
.name;
const classSymbol = host.getClassSymbol(adjacentNode);
if (classSymbol === undefined) {
return fail('Expected classSymbol to be defined');
}
expect(classSymbol.name).toEqual('DecoratedWrappedClass');
expect(classSymbol.declaration.valueDeclaration).toBe(outerNode);
expect(classSymbol.implementation.valueDeclaration)
.toBe(innerNodes[0] as ts.Declaration);
if (classSymbol.adjacent === undefined ||
!isNamedVariableDeclaration(classSymbol.adjacent.valueDeclaration)) {
return fail('Expected a named variable declaration for the adjacent symbol');
}
expect(classSymbol.adjacent.valueDeclaration.name.text)
.toBe('AdjacentDecoratedWrappedClass');
});
it('should return the same class symbol (of the outer declaration) for decorated wrapped outer and inner declarations',
() => {
loadTestFiles([WRAPPED_CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(WRAPPED_CLASS_EXPRESSION_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const outerNode = getDeclaration(
bundle.program, WRAPPED_CLASS_EXPRESSION_FILE.name, 'DecoratedWrappedClass',
isNamedVariableDeclaration);
const innerNodes = walkForDeclarations('InnerDecoratedWrappedClass', outerNode);
if (innerNodes.length === 0) {
throw new Error('Expected to find InnerDecoratedWrappedClass');
}
const innerSymbol = host.getClassSymbol(innerNodes[0])!;
const outerSymbol = host.getClassSymbol(outerNode)!;
expect(innerSymbol.declaration).toBe(outerSymbol.declaration);
expect(innerSymbol.implementation).toBe(outerSymbol.implementation);
});
it('should return undefined if node is not a class', () => {
loadTestFiles([FOO_FUNCTION_FILE]);
const bundle = makeTestBundleProgram(FOO_FUNCTION_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const node = getDeclaration(
bundle.program, FOO_FUNCTION_FILE.name, 'foo', isNamedFunctionDeclaration);
const classSymbol = host.getClassSymbol(node);
expect(classSymbol).toBeUndefined();
});
it('should return undefined if variable declaration is not initialized to a valid class definition',
() => {
const testFile = {
name: _('/test.js'),
contents: `var MyClass = null;`,
};
loadTestFiles([testFile]);
const bundle = makeTestBundleProgram(testFile.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const node =
getDeclaration(bundle.program, testFile.name, 'MyClass', isNamedVariableDeclaration);
const classSymbol = host.getClassSymbol(node);
expect(classSymbol).toBeUndefined();
});
});
describe('isClass()', () => {
it('should return true if a given node is a TS class declaration', () => {
loadTestFiles([SIMPLE_CLASS_FILE]);
const bundle = makeTestBundleProgram(SIMPLE_CLASS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const node = getDeclaration(
bundle.program, SIMPLE_CLASS_FILE.name, 'EmptyClass', isNamedClassDeclaration);
expect(host.isClass(node)).toBe(true);
});
it('should return true if a given node is a class expression assigned into a variable',
() => {
loadTestFiles([CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(CLASS_EXPRESSION_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const node = getDeclaration(
bundle.program, CLASS_EXPRESSION_FILE.name, 'EmptyClass', ts.isVariableDeclaration);
expect(host.isClass(node)).toBe(true);
});
it('should return true if a given node is a class expression assigned into two variables',
() => {
loadTestFiles([CLASS_EXPRESSION_FILE]);
const bundle = makeTestBundleProgram(CLASS_EXPRESSION_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const node = getDeclaration(
bundle.program, CLASS_EXPRESSION_FILE.name, 'AliasedClass',
ts.isVariableDeclaration);
expect(host.isClass(node)).toBe(true);
});
it('should return false if a given node is a TS function declaration', () => {
loadTestFiles([FOO_FUNCTION_FILE]);
const bundle = makeTestBundleProgram(FOO_FUNCTION_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const node = getDeclaration(
bundle.program, FOO_FUNCTION_FILE.name, 'foo', isNamedFunctionDeclaration);
expect(host.isClass(node)).toBe(false);
});
});
describe('hasBaseClass()', () => {
it('should not consider a class without extends clause as having a base class', () => {
const file = {
name: _('/base_class.js'),
contents: `class TestClass {}`,
};
loadTestFiles([file]);
const bundle = makeTestBundleProgram(file.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode =
getDeclaration(bundle.program, file.name, 'TestClass', isNamedClassDeclaration);
expect(host.hasBaseClass(classNode)).toBe(false);
});
it('should consider a class with extends clause as having a base class', () => {
const file = {
name: _('/base_class.js'),
contents: `
class BaseClass {}
class TestClass extends BaseClass {}`,
};
loadTestFiles([file]);
const bundle = makeTestBundleProgram(file.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode =
getDeclaration(bundle.program, file.name, 'TestClass', isNamedClassDeclaration);
expect(host.hasBaseClass(classNode)).toBe(true);
});
it('should consider an aliased class with extends clause as having a base class', () => {
const file = {
name: _('/base_class.js'),
contents: `
let TestClass_1;
class BaseClass {}
let TestClass = TestClass_1 = class TestClass extends BaseClass {}`,
};
loadTestFiles([file]);
const bundle = makeTestBundleProgram(file.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode =
getDeclaration(bundle.program, file.name, 'TestClass', isNamedVariableDeclaration);
expect(host.hasBaseClass(classNode)).toBe(true);
});
});
describe('getBaseClassExpression()', () => {
it('should not consider a class without extends clause as having a base class', () => {
const file = {
name: _('/base_class.js'),
contents: `class TestClass {}`,
};
loadTestFiles([file]);
const bundle = makeTestBundleProgram(file.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode =
getDeclaration(bundle.program, file.name, 'TestClass', isNamedClassDeclaration);
expect(host.getBaseClassExpression(classNode)).toBe(null);
});
it('should find the base class of a class with an `extends` clause', () => {
const file = {
name: _('/base_class.js'),
contents: `
class BaseClass {}
class TestClass extends BaseClass {}`,
};
loadTestFiles([file]);
const bundle = makeTestBundleProgram(file.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode =
getDeclaration(bundle.program, file.name, 'TestClass', isNamedClassDeclaration);
const baseIdentifier = host.getBaseClassExpression(classNode)!;
if (!ts.isIdentifier(baseIdentifier)) {
throw new Error(`Expected ${baseIdentifier.getText()} to be an identifier.`);
}
expect(baseIdentifier.text).toEqual('BaseClass');
});
it('should find the base class of an aliased class with an `extends` clause', () => {
const file = {
name: _('/base_class.js'),
contents: `
let TestClass_1;
class BaseClass {}
let TestClass = TestClass_1 = class TestClass extends BaseClass {}`,
};
loadTestFiles([file]);
const bundle = makeTestBundleProgram(file.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode =
getDeclaration(bundle.program, file.name, 'TestClass', isNamedVariableDeclaration);
const baseIdentifier = host.getBaseClassExpression(classNode)!;
if (!ts.isIdentifier(baseIdentifier)) {
throw new Error(`Expected ${baseIdentifier.getText()} to be an identifier.`);
}
expect(baseIdentifier.text).toEqual('BaseClass');
});
it('should find the base class expression of a class with a dynamic `extends` expression',
() => {
const file = {
name: _('/base_class.js'),
contents: `
class BaseClass {}
function foo() { return BaseClass; }
class TestClass extends foo() {}`,
};
loadTestFiles([file]);
const bundle = makeTestBundleProgram(file.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classNode =
getDeclaration(bundle.program, file.name, 'TestClass', isNamedClassDeclaration);
const baseExpression = host.getBaseClassExpression(classNode)!;
expect(baseExpression.getText()).toEqual('foo()');
});
});
describe('getGenericArityOfClass()', () => {
it('should properly count type parameters', () => {
loadTestFiles(ARITY_CLASSES);
const bundle = makeTestBundleProgram(ARITY_CLASSES[0].name);
const dts = makeTestBundleProgram(ARITY_CLASSES[1].name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle, dts));
const noTypeParamClass = getDeclaration(
bundle.program, _('/src/class.js'), 'NoTypeParam', isNamedClassDeclaration);
expect(host.getGenericArityOfClass(noTypeParamClass)).toBe(0);
const oneTypeParamClass = getDeclaration(
bundle.program, _('/src/class.js'), 'OneTypeParam', isNamedClassDeclaration);
expect(host.getGenericArityOfClass(oneTypeParamClass)).toBe(1);
const twoTypeParamsClass = getDeclaration(
bundle.program, _('/src/class.js'), 'TwoTypeParams', isNamedClassDeclaration);
expect(host.getGenericArityOfClass(twoTypeParamsClass)).toBe(2);
});
});
describe('getSwitchableDeclarations()', () => {
it('should return a collection of all the switchable variable declarations in the given module',
() => {
loadTestFiles([MARKER_FILE]);
const bundle = makeTestBundleProgram(MARKER_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const file = getSourceFileOrError(bundle.program, MARKER_FILE.name);
const declarations = host.getSwitchableDeclarations(file);
expect(declarations.map(d => [d.name.getText(), d.initializer!.getText()])).toEqual([
['compileNgModuleFactory', 'compileNgModuleFactory__PRE_R3__']
]);
});
});
describe('findClassSymbols()', () => {
it('should return an array of all classes in the given source file', () => {
loadTestFiles(DECORATED_FILES);
const bundle = makeTestBundleProgram(getRootFiles(DECORATED_FILES)[0]);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const primaryFile = getSourceFileOrError(bundle.program, DECORATED_FILES[0].name);
const secondaryFile = getSourceFileOrError(bundle.program, DECORATED_FILES[1].name);
const classSymbolsPrimary = host.findClassSymbols(primaryFile);
expect(classSymbolsPrimary.map(c => c.name)).toEqual([
'A', 'B', 'C', 'AliasedClass', 'Wrapped1', 'Wrapped2'
]);
const classSymbolsSecondary = host.findClassSymbols(secondaryFile);
expect(classSymbolsSecondary.length).toEqual(1);
expect(classSymbolsSecondary.map(c => c.name)).toEqual(['D']);
});
});
describe('getDecoratorsOfSymbol()', () => {
it('should return decorators of class symbol', () => {
loadTestFiles(DECORATED_FILES);
const bundle = makeTestBundleProgram(getRootFiles(DECORATED_FILES)[0]);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const primaryFile = getSourceFileOrError(bundle.program, DECORATED_FILES[0].name);
const secondaryFile = getSourceFileOrError(bundle.program, DECORATED_FILES[1].name);
const classSymbolsPrimary = host.findClassSymbols(primaryFile);
const classDecoratorsPrimary = classSymbolsPrimary.map(s => host.getDecoratorsOfSymbol(s));
expect(classDecoratorsPrimary.length).toEqual(6);
expect(classDecoratorsPrimary[0]!.map(d => d.name)).toEqual(['Directive']);
expect(classDecoratorsPrimary[1]!.map(d => d.name)).toEqual(['Directive']);
expect(classDecoratorsPrimary[2]).toBe(null);
expect(classDecoratorsPrimary[3]!.map(d => d.name)).toEqual(['Directive']);
expect(classDecoratorsPrimary[4]!.map(d => d.name)).toEqual(['Directive']);
expect(classDecoratorsPrimary[5]!.map(d => d.name)).toEqual(['Directive']);
const classSymbolsSecondary = host.findClassSymbols(secondaryFile);
const classDecoratorsSecondary =
classSymbolsSecondary.map(s => host.getDecoratorsOfSymbol(s));
expect(classDecoratorsSecondary.length).toEqual(1);
expect(classDecoratorsSecondary[0]!.map(d => d.name)).toEqual(['Directive']);
});
it('should return a cloned array on each invocation', () => {
loadTestFiles(DECORATED_FILES);
const bundle = makeTestBundleProgram(getRootFiles(DECORATED_FILES)[0]);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classDecl =
getDeclaration(bundle.program, DECORATED_FILES[0].name, 'A', ts.isClassDeclaration)!;
const classSymbol = host.getClassSymbol(classDecl)!;
const firstResult = host.getDecoratorsOfSymbol(classSymbol);
const secondResult = host.getDecoratorsOfSymbol(classSymbol);
expect(firstResult).not.toBe(secondResult);
});
});
describe('getDtsDeclaration()', () => {
it('should find the dts declaration that has the same relative path to the source file',
() => {
loadTestFiles(TYPINGS_SRC_FILES);
loadTestFiles(TYPINGS_DTS_FILES);
const bundle = makeTestBundleProgram(getRootFiles(TYPINGS_SRC_FILES)[0]);
const dts = makeTestBundleProgram(getRootFiles(TYPINGS_DTS_FILES)[0]);
const class1 = getDeclaration(
bundle.program, _('/ep/src/class1.js'), 'Class1', isNamedClassDeclaration);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle, dts));
const dtsDeclaration = host.getDtsDeclaration(class1);
expect(dtsDeclaration!.getSourceFile().fileName).toEqual(_('/ep/typings/class1.d.ts'));
});
it('should find the dts declaration for exported functions', () => {
loadTestFiles(TYPINGS_SRC_FILES);
loadTestFiles(TYPINGS_DTS_FILES);
const bundle = makeTestBundleProgram(_('/ep/src/func1.js'));
const dts = makeTestDtsBundleProgram(_('/ep/typings/func1.d.ts'), _('/'));
const mooFn = getDeclaration(
bundle.program, _('/ep/src/func1.js'), 'mooFn', isNamedFunctionDeclaration);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle, dts));
const dtsDeclaration = host.getDtsDeclaration(mooFn);
expect(dtsDeclaration!.getSourceFile().fileName).toEqual(_('/ep/typings/func1.d.ts'));
});
it('should return null if there is no matching class in the matching dts file', () => {
loadTestFiles(TYPINGS_SRC_FILES);
loadTestFiles(TYPINGS_DTS_FILES);
const bundle = makeTestBundleProgram(getRootFiles(TYPINGS_SRC_FILES)[0]);
const dts = makeTestBundleProgram(getRootFiles(TYPINGS_DTS_FILES)[0]);
const missingClass = getDeclaration(
bundle.program, _('/ep/src/missing-class.js'), 'MissingClass2',
isNamedClassDeclaration);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle, dts));
expect(host.getDtsDeclaration(missingClass)).toBe(null);
});
it('should return null if there is no matching dts file', () => {
loadTestFiles(TYPINGS_SRC_FILES);
loadTestFiles(TYPINGS_DTS_FILES);
const bundle = makeTestBundleProgram(getRootFiles(TYPINGS_SRC_FILES)[0]);
const dts = makeTestBundleProgram(getRootFiles(TYPINGS_DTS_FILES)[0]);
const missingClass = getDeclaration(
bundle.program, _('/ep/src/missing-class.js'), 'MissingClass2',
isNamedClassDeclaration);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle, dts));
expect(host.getDtsDeclaration(missingClass)).toBe(null);
});
it('should ignore dts files outside of the entrypoint', () => {
loadTestFiles(TYPINGS_SRC_FILES);
loadTestFiles(TYPINGS_DTS_FILES);
const bundle = makeTestBundleProgram(
getRootFiles(TYPINGS_SRC_FILES)[0], false, [_('/ep/src/shadow-class.js')]);
const dts = makeTestBundleProgram(
getRootFiles(TYPINGS_DTS_FILES)[0], false, [_('/ep/typings/shadow-class.d.ts')]);
const shadowClass = getDeclaration(
bundle.program, _('/ep/src/shadow-class.js'), 'ShadowClass', isNamedClassDeclaration);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle, dts));
const dtsDecl = host.getDtsDeclaration(shadowClass)!;
expect(dtsDecl).not.toBeNull();
expect(dtsDecl.getSourceFile().fileName).toEqual(_('/ep/typings/shadow-class.d.ts'));
});
it('should ignore source files outside of the entrypoint', () => {
const externalLibWithoutTypingsIndex = _('/an_external_lib_without_typings/index.js');
class TestEsm2015ReflectionHost extends Esm2015ReflectionHost {
getExportsOfModule(node: ts.Node) {
if (ts.isSourceFile(node) && (node.fileName === externalLibWithoutTypingsIndex)) {
throw new Error(
`'getExportsOfModule()' called on '${externalLibWithoutTypingsIndex}'.`);
}
return super.getExportsOfModule(node);
}
}
loadTestFiles(TYPINGS_SRC_FILES);
loadTestFiles(TYPINGS_DTS_FILES);
const bundle = makeTestBundleProgram(
getRootFiles(TYPINGS_SRC_FILES)[0], false, [externalLibWithoutTypingsIndex]);
const dts = makeTestBundleProgram(getRootFiles(TYPINGS_DTS_FILES)[0]);
const missingClass = getDeclaration(
bundle.program, _('/ep/src/missing-class.js'), 'MissingClass2',
isNamedClassDeclaration);
const host =
createHost(bundle, new TestEsm2015ReflectionHost(new MockLogger(), false, bundle, dts));
expect(host.getDtsDeclaration(missingClass)).toBeNull();
});
it('should find the dts file that contains a matching class declaration, even if the source files do not match',
() => {
loadTestFiles(TYPINGS_SRC_FILES);
loadTestFiles(TYPINGS_DTS_FILES);
const bundle = makeTestBundleProgram(_('/ep/src/flat-file.js'));
const dts = makeTestBundleProgram(getRootFiles(TYPINGS_DTS_FILES)[0]);
const class1 = getDeclaration(
bundle.program, _('/ep/src/flat-file.js'), 'Class1', isNamedClassDeclaration);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle, dts));
const dtsDeclaration = host.getDtsDeclaration(class1);
expect(dtsDeclaration!.getSourceFile().fileName).toEqual(_('/ep/typings/class1.d.ts'));
});
it('should find aliased exports', () => {
loadTestFiles(TYPINGS_SRC_FILES);
loadTestFiles(TYPINGS_DTS_FILES);
const bundle = makeTestBundleProgram(_('/ep/src/flat-file.js'));
const dts = makeTestBundleProgram(getRootFiles(TYPINGS_DTS_FILES)[0]);
const sourceClass = getDeclaration(
bundle.program, _('/ep/src/flat-file.js'), 'SourceClass', isNamedClassDeclaration);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle, dts));
const dtsDeclaration = host.getDtsDeclaration(sourceClass);
if (dtsDeclaration === null) {
return fail('Expected dts class to be found');
}
if (!isNamedClassDeclaration(dtsDeclaration)) {
return fail('Expected a named class to be found.');
}
expect(dtsDeclaration.name.text).toEqual('TypingsClass');
expect(_(dtsDeclaration.getSourceFile().fileName))
.toEqual(_('/ep/typings/typings-class.d.ts'));
});
it('should find the dts file that contains a matching class declaration, even if the class is not publicly exported',
() => {
loadTestFiles(TYPINGS_SRC_FILES);
loadTestFiles(TYPINGS_DTS_FILES);
const bundle = makeTestBundleProgram(getRootFiles(TYPINGS_SRC_FILES)[0]);
const dts = makeTestBundleProgram(getRootFiles(TYPINGS_DTS_FILES)[0]);
const internalClass = getDeclaration(
bundle.program, _('/ep/src/internal.js'), 'InternalClass', isNamedClassDeclaration);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle, dts));
const dtsDeclaration = host.getDtsDeclaration(internalClass);
expect(dtsDeclaration!.getSourceFile().fileName).toEqual(_('/ep/typings/internal.d.ts'));
});
it('should match publicly and internal exported classes correctly, even if they have the same name',
() => {
loadTestFiles(TYPINGS_SRC_FILES);
loadTestFiles(TYPINGS_DTS_FILES);
const bundle = makeTestBundleProgram(getRootFiles(TYPINGS_SRC_FILES)[0]);
const dts = makeTestBundleProgram(getRootFiles(TYPINGS_DTS_FILES)[0]);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle, dts));
const class2 = getDeclaration(
bundle.program, _('/ep/src/class2.js'), 'Class2', isNamedClassDeclaration);
const class2DtsDeclaration = host.getDtsDeclaration(class2);
expect(class2DtsDeclaration!.getSourceFile().fileName)
.toEqual(_('/ep/typings/class2.d.ts'));
const internalClass2 = getDeclaration(
bundle.program, _('/ep/src/internal.js'), 'Class2', isNamedClassDeclaration);
const internalClass2DtsDeclaration = host.getDtsDeclaration(internalClass2);
expect(internalClass2DtsDeclaration!.getSourceFile().fileName)
.toEqual(_('/ep/typings/internal.d.ts'));
});
});
describe('getInternalNameOfClass()', () => {
it('should return the name of the class (if there is no separate inner class)', () => {
loadTestFiles([SIMPLE_CLASS_FILE]);
const bundle = makeTestBundleProgram(SIMPLE_CLASS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const node = getDeclaration(
bundle.program, SIMPLE_CLASS_FILE.name, 'EmptyClass', isNamedClassDeclaration);
expect(host.getInternalNameOfClass(node).text).toEqual('EmptyClass');
});
it('should return the name of the inner class (if there is an IIFE)', () => {
loadTestFiles([SIMPLE_CLASS_FILE]);
const bundle = makeTestBundleProgram(SIMPLE_CLASS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const node = getDeclaration(
bundle.program, SIMPLE_CLASS_FILE.name, 'SimpleWrappedClass',
isNamedVariableDeclaration);
expect(host.getInternalNameOfClass(node).text).toEqual('SimpleWrappedClassInner');
});
it('should return the name of the inner variable declaration (if there is an aliased class in an IIFE)',
() => {
loadTestFiles([SIMPLE_CLASS_FILE]);
const bundle = makeTestBundleProgram(SIMPLE_CLASS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const node = getDeclaration(
bundle.program, SIMPLE_CLASS_FILE.name, 'AliasedWrappedClass',
isNamedVariableDeclaration);
expect(host.getInternalNameOfClass(node).text).toEqual('AliasedWrappedClassInner');
});
});
describe('getAdjacentNameOfClass()', () => {
it('should return the name of the class (if there is no separate inner class)', () => {
loadTestFiles([SIMPLE_CLASS_FILE]);
const bundle = makeTestBundleProgram(SIMPLE_CLASS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const node = getDeclaration(
bundle.program, SIMPLE_CLASS_FILE.name, 'EmptyClass', isNamedClassDeclaration);
expect(host.getAdjacentNameOfClass(node).text).toEqual('EmptyClass');
});
it('should return the name of the inner class (if there is an IIFE)', () => {
loadTestFiles([SIMPLE_CLASS_FILE]);
const bundle = makeTestBundleProgram(SIMPLE_CLASS_FILE.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const node = getDeclaration(
bundle.program, SIMPLE_CLASS_FILE.name, 'SimpleWrappedClass',
isNamedVariableDeclaration);
expect(host.getAdjacentNameOfClass(node).text).toEqual('SimpleWrappedClassInner');
});
it('should return the name of the inner variable declaration (if there is an aliased class in an IIFE)',
() => {
loadTestFiles([SIMPLE_CLASS_FILE]);
const bundle = makeTestBundleProgram(SIMPLE_CLASS_FILE.name);
const host =
createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const node = getDeclaration(
bundle.program, SIMPLE_CLASS_FILE.name, 'AliasedWrappedClass',
isNamedVariableDeclaration);
expect(host.getAdjacentNameOfClass(node).text).toEqual('AliasedWrappedClassAdjacent');
});
});
describe('getEndOfClass()', () => {
it('should return the last static property of the class', () => {
const testFile: TestFile = {
name: _('/node_modules/test-package/some/file.js'),
contents: `import {Directive, NgZone, Console} from '@angular/core';\n` +
`export class SomeDirective {\n` +
` constructor(zone, cons) {}\n` +
` method() {}\n` +
`}\n` +
`SomeDirective.decorators = [\n` +
` { type: Directive, args: [{ selector: '[a]' }] },\n` +
` { type: OtherA }\n` +
`];\n` +
`SomeDirective.ctorParameters = () => [\n` +
` { type: NgZone },\n` +
` { type: Console }\n` +
`];\n` +
`callSomeFunction();\n` +
`var value = 100;\n`
};
loadTestFiles([testFile]);
const bundle = makeTestBundleProgram(testFile.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classSymbol = host.findClassSymbols(bundle.program.getSourceFile(testFile.name)!)[0];
const endOfClass = host.getEndOfClass(classSymbol);
expect(endOfClass.getText())
.toEqual(
`SomeDirective.ctorParameters = () => [\n` +
` { type: NgZone },\n` +
` { type: Console }\n` +
`];`);
});
it('should return the class declaration if there are no extra statements', () => {
const testFile: TestFile = {
name: _('/node_modules/test-package/some/file.js'),
contents: `export class SomeDirective {\n` +
` constructor(zone, cons) {}\n` +
` method() {}\n` +
`}\n` +
`callSomeFunction();\n` +
`var value = 100;\n`
};
loadTestFiles([testFile]);
const bundle = makeTestBundleProgram(testFile.name);
const host = createHost(bundle, new Esm2015ReflectionHost(new MockLogger(), false, bundle));
const classSymbol = host.findClassSymbols(bundle.program.getSourceFile(testFile.name)!)[0];
const endOfClass = host.getEndOfClass(classSymbol);
expect(endOfClass.getText())
.toEqual(
`export class SomeDirective {\n` +
` constructor(zone, cons) {}\n` +
` method() {}\n` +
`}`);
});
});
});
});