c546a33eff
This commit introduces native operating system file dialogs in the desktop application replacing the existing web-based dialogs. It lays the foundation for future enhancements such as: - Providing error messages when saving or executing files, addressing #264. - Creating system restore points, addressing #50. Documentation updates: - Update `desktop-vs-web-features.md` with added functionality. - Update `README.md` with security feature highlights. - Update home page documentation to emphasize security features. Other supporting changes include: - Integrate IPC communication channels for secure Electron dialog API interactions. - Refactor `IpcRegistration` for more type-safety and simplicity. - Introduce a Vue hook to encapsulate dialog functionality. - Improve errors during IPC registration for easier troubleshooting. - Move `ClientLoggerFactory` for consistency in hooks organization and remove `LoggerFactory` interface for simplicity. - Add tests for the save file dialog in the browser context. - Add `Blob` polyfill in tests to compensate for the missing `blob.text()` function in `jsdom` (see jsdom/jsdom#2555). Improve environment detection logic: - Treat test environment as browser environments to correctly activate features based on the environment. This resolves issues where the environment is misidentified as desktop, but Electron preloader APIs are missing. - Rename `isDesktop` environment identification variable to `isRunningAsDesktopApplication` for better clarity and to avoid confusion with desktop environments in web/browser/test environments. - Simplify `BrowserRuntimeEnvironment` to consistently detect non-desktop application environments. - Improve environment detection for Electron main process (electron/electron#2288).
107 lines
3.6 KiB
TypeScript
107 lines
3.6 KiB
TypeScript
import { describe } from 'vitest';
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import { VueDependencyInjectionApiStub } from '@tests/unit/shared/Stubs/VueDependencyInjectionApiStub';
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import { InjectionKeys } from '@/presentation/injectionSymbols';
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import { provideDependencies, VueDependencyInjectionApi } from '@/presentation/bootstrapping/DependencyProvider';
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import { ApplicationContextStub } from '@tests/unit/shared/Stubs/ApplicationContextStub';
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import { itIsSingleton } from '@tests/unit/shared/TestCases/SingletonTests';
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describe('DependencyProvider', () => {
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describe('provideDependencies', () => {
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const testCases: {
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readonly [K in keyof typeof InjectionKeys]: (injectionKey: symbol) => void;
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} = {
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useCollectionState: createTransientTests(),
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useApplication: createSingletonTests(),
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useRuntimeEnvironment: createSingletonTests(),
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useAutoUnsubscribedEvents: createTransientTests(),
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useClipboard: createTransientTests(),
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useCurrentCode: createTransientTests(),
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useUserSelectionState: createTransientTests(),
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useLogger: createTransientTests(),
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useCodeRunner: createTransientTests(),
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useDialog: createTransientTests(),
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};
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Object.entries(testCases).forEach(([key, runTests]) => {
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const registeredKey = InjectionKeys[key].key;
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describe(`Key: "${registeredKey.toString()}"`, () => {
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runTests(registeredKey);
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});
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});
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});
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});
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function createTransientTests() {
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return (injectionKey: symbol) => {
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it('should register a function when transient dependency is resolved', () => {
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// arrange
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const api = new VueDependencyInjectionApiStub();
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// act
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new ProvideDependenciesBuilder()
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.withApi(api)
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.provideDependencies();
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// expect
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const registeredObject = api.inject(injectionKey);
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expect(registeredObject).to.be.instanceOf(Function);
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});
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it('should return different instances for transient dependency', () => {
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// arrange
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const api = new VueDependencyInjectionApiStub();
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// act
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new ProvideDependenciesBuilder()
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.withApi(api)
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.provideDependencies();
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// expect
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const registeredObject = api.inject(injectionKey);
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const factory = registeredObject as () => unknown;
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const firstResult = factory();
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const secondResult = factory();
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expect(firstResult).to.not.equal(secondResult);
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});
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};
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}
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function createSingletonTests() {
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return (injectionKey: symbol) => {
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it('should register an object when singleton dependency is resolved', () => {
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// arrange
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const api = new VueDependencyInjectionApiStub();
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// act
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new ProvideDependenciesBuilder()
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.withApi(api)
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.provideDependencies();
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// expect
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const registeredObject = api.inject(injectionKey);
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expect(registeredObject).to.be.instanceOf(Object);
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});
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it('should return the same instance for singleton dependency', () => {
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itIsSingleton({
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getter: () => {
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// arrange
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const api = new VueDependencyInjectionApiStub();
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// act
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new ProvideDependenciesBuilder()
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.withApi(api)
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.provideDependencies();
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// expect
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const registeredObject = api.inject(injectionKey);
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return registeredObject;
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},
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});
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});
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};
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}
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class ProvideDependenciesBuilder {
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private context = new ApplicationContextStub();
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private api: VueDependencyInjectionApi = new VueDependencyInjectionApiStub();
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public withApi(api: VueDependencyInjectionApi): this {
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this.api = api;
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return this;
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}
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public provideDependencies() {
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return provideDependencies(this.context, this.api);
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}
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}
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