slint/api/node/index.ts

// Copyright © SixtyFPS GmbH <info@slint.dev>
// SPDX-License-Identifier: GPL-3.0-only OR LicenseRef-Slint-Royalty-free-2.0 OR LicenseRef-Slint-Software-3.0

import * as napi from "./rust-module.cjs";
export {
    Diagnostic,
    DiagnosticLevel,
    RgbaColor,
    Brush
} from "./rust-module";

import {
    Diagnostic
} from "./rust-module.cjs";

/**
 *  Represents a two-dimensional point.
 */
export interface Point {
    /**
     * Defines the x coordinate of the point.
     */
    x: number;

    /**
     * Defines the y coordinate of the point.
     */
    y: number;
}

/**
 *  Represents a two-dimensional size.
 */
export interface Size {
    /**
     * Defines the width length of the size.
     */
    width: number;

    /**
     * Defines the height length of the size.
     */
    height: number;
}

/**
 * This type represents a window towards the windowing system, that's used to render the
 * scene of a component. It provides API to control windowing system specific aspects such
 * as the position on the screen.
 */
export interface Window {
    /** Gets or sets the logical position of the window on the screen. */
    logicalPosition: Point;

    /** Gets or sets the physical position of the window on the screen. */
    physicalPosition: Point;

    /** Gets or sets the logical size of the window on the screen, */
    logicalSize: Size;

    /** Gets or sets the physical size of the window on the screen, */
    physicalSize: Size;

    /** Gets or sets the window's fullscreen state **/
    fullscreen: boolean;

    /** Gets or sets the window's maximized state **/
    maximized: boolean;

    /** Gets or sets teh window's minimized state **/
    minimized: boolean;

    /**
     * Returns the visibility state of the window. This function can return false even if you previously called show()
     * on it, for example if the user minimized the window.
     */
    get visible(): boolean;

    /**
     * Shows the window on the screen. An additional strong reference on the
     * associated component is maintained while the window is visible.
     */
    show(): void;

    /** Hides the window, so that it is not visible anymore. */
    hide(): void;

    /** Issues a request to the windowing system to re-render the contents of the window. */
    requestRedraw(): void;
}

/**
 * An image data type that can be displayed by the Image element.
 *
 * This interface is inspired by the web [ImageData](https://developer.mozilla.org/en-US/docs/Web/API/ImageData) interface.
 */
export interface ImageData {
    /**
     * Returns the path of the image, if it was loaded from disk. Otherwise
     * the property is undefined.
     */
    readonly path?: string;

    /**
     *  Returns the image as buffer.
     */
    get data(): Uint8Array;

    /**
     * Returns the width of the image in pixels.
     */
    get width(): number;

    /**
     *  Returns the height of the image in pixels.
     */
    get height(): number;
}

class ModelIterator<T> implements Iterator<T> {
    private row: number;
    private model: Model<T>;

    constructor(model: Model<T>) {
        this.model = model;
        this.row = 0;
    }

    public next(): IteratorResult<T> {
        if (this.row < this.model.rowCount()) {
            let row = this.row;
            this.row++;
            return {
                done: false,
                value: this.model.rowData(row)
            }
        }
        return {
            done: true,
            value: undefined
        }
    }
}

/**
 * Model<T> is the interface for feeding dynamic data into
 * `.slint` views.
 *
 * A model is organized like a table with rows of data. The
 * fields of the data type T behave like columns.
 *
 * @template T the type of the model's items.
 *
 * ### Example
 * As an example let's see the implementation of {@link ArrayModel}
 *
 * ```js
 * export class ArrayModel<T> extends Model<T> {
 *    private a: Array<T>
 *
 *   constructor(arr: Array<T>) {
 *        super();
 *        this.a = arr;
 *    }
 *
 *    rowCount() {
 *        return this.a.length;
 *    }
 *
 *    rowData(row: number) {
 *       return this.a[row];
 *    }
 *
 *    setRowData(row: number, data: T) {
 *        this.a[row] = data;
 *        this.notifyRowDataChanged(row);
 *    }
 *
 *    push(...values: T[]) {
 *        let size = this.a.length;
 *        Array.prototype.push.apply(this.a, values);
 *        this.notifyRowAdded(size, arguments.length);
 *    }
 *
 *    remove(index: number, size: number) {
 *        let r = this.a.splice(index, size);
 *        this.notifyRowRemoved(index, size);
 *    }
 *
 *    get length(): number {
 *        return this.a.length;
 *    }
 *
 *    values(): IterableIterator<T> {
 *        return this.a.values();
 *    }
 *
 *    entries(): IterableIterator<[number, T]> {
 *        return this.a.entries()
 *    }
 *}
 * ```
 */
export abstract class Model<T> implements Iterable<T> {
    /**
     * @hidden
     */
    modelNotify: napi.ExternalObject<napi.SharedModelNotify>;

    constructor() {
        this.modelNotify = napi.jsModelNotifyNew(this);
    }

    // /**
    //  * Returns a new Model where all elements are mapped by the function `mapFunction`.
    //  * @template T the type of the source model's items.
    //  * @param mapFunction functions that maps
    //  * @returns a new {@link MapModel} that wraps the current model.
    //  */
    // map<U>(
    //     mapFunction: (data: T) => U
    // ): MapModel<T, U> {
    //     return new MapModel(this, mapFunction);
    // }

    /**
     * Implementations of this function must return the current number of rows.
     */
    abstract rowCount(): number;
    /**
     * Implementations of this function must return the data at the specified row.
     * @param row index in range 0..(rowCount() - 1).
     * @returns undefined if row is out of range otherwise the data.
     */
    abstract rowData(row: number): T | undefined;

    /**
     * Implementations of this function must store the provided data parameter
     * in the model at the specified row.
     * @param _row index in range 0..(rowCount() - 1).
     * @param _data new data item to store on the given row index
     */
    setRowData(_row: number, _data: T): void {
        console.log(
            "setRowData called on a model which does not re-implement this method. This happens when trying to modify a read-only model"
        );
    }

    [Symbol.iterator](): Iterator<T> {
        return new ModelIterator(this);
    }

    /**
     * Notifies the view that the data of the current row is changed.
     * @param row index of the changed row.
     */
    protected notifyRowDataChanged(row: number): void {
        napi.jsModelNotifyRowDataChanged(this.modelNotify, row);
    }

    /**
     * Notifies the view that multiple rows are added to the model.
     * @param row index of the first added row.
     * @param count the number of added items.
     */
    protected notifyRowAdded(row: number, count: number): void {
        napi.jsModelNotifyRowAdded(this.modelNotify, row, count);
    }

    /**
     * Notifies the view that multiple rows are removed to the model.
     * @param row index of the first removed row.
     * @param count the number of removed items.
     */
    protected notifyRowRemoved(row: number, count: number): void {
        napi.jsModelNotifyRowRemoved(this.modelNotify, row, count);
    }

    /**
     * Notifies the view that the complete data must be reload.
     */
    protected notifyReset(): void {
        napi.jsModelNotifyReset(this.modelNotify);
    }
}

/**
 * ArrayModel wraps a JavaScript array for use in `.slint` views. The underlying
 * array can be modified with the [[ArrayModel.push]] and [[ArrayModel.remove]] methods.
 */
export class ArrayModel<T> extends Model<T> {
    /**
     * @hidden
     */
    #array: Array<T>;

    /**
     * Creates a new ArrayModel.
     *
     * @param arr
     */
    constructor(arr: Array<T>) {
        super();
        this.#array = arr;
    }

    /**
     * Returns the number of entries in the array model.
     */
    get length(): number {
        return this.#array.length;
    }

    /**
     * Returns the number of entries in the array model.
     */
    rowCount() {
        return this.#array.length;
    }

    /**
     * Returns the data at the specified row.
     * @param row index in range 0..(rowCount() - 1).
     * @returns undefined if row is out of range otherwise the data.
     */
    rowData(row: number) {
        return this.#array[row];
    }

    /**
     * Stores the given data on the given row index and notifies run-time about the changed row.
     * @param row index in range 0..(rowCount() - 1).
     * @param data new data item to store on the given row index
     */
    setRowData(row: number, data: T) {
        this.#array[row] = data;
        this.notifyRowDataChanged(row);
    }

    /**
     * Pushes new values to the array that's backing the model and notifies
     * the run-time about the added rows.
     * @param values list of values that will be pushed to the array.
     */
    push(...values: T[]) {
        let size = this.#array.length;
        Array.prototype.push.apply(this.#array, values);
        this.notifyRowAdded(size, arguments.length);
    }

    /**
     * Removes the last element from the array and returns it.
     *
     * @returns The removed element or undefined if the array is empty.
     */
    pop(): T | undefined {
        let last = this.#array.pop();
        if (last !== undefined) {
            this.notifyRowRemoved(this.#array.length, 1);
        }
        return last;
    }

    // FIXME: should this be named splice and have the splice api?
    /**
     * Removes the specified number of element from the array that's backing
     * the model, starting at the specified index.
     * @param index index of first row to remove.
     * @param size number of rows to remove.
     */
    remove(index: number, size: number) {
        let r = this.#array.splice(index, size);
        this.notifyRowRemoved(index, size);
    }

    /**
     * Returns an iterable of values in the array.
     */
    values(): IterableIterator<T> {
        return this.#array.values();
    }

    /**
     * Returns an iterable of key, value pairs for every entry in the array.
     */
    entries(): IterableIterator<[number, T]> {
        return this.#array.entries();
    }
}

export namespace private_api {
/**
 * Provides rows that are generated by a map function based on the rows of another Model.
 *
 * @template T item type of source model that is mapped to U.
 * @template U the type of the mapped items
 *
 * ## Example
 *
 *  Here we have a {@link ArrayModel} holding rows of a custom interface `Name` and a {@link MapModel} that maps the name rows
 *  to single string rows.
 *
 * ```ts
 * import { Model, ArrayModel, MapModel } from "./index";
*
* interface Name {
*     first: string;
*     last: string;
* }
*
* const model = new ArrayModel<Name>([
*     {
*         first: "Hans",
*         last: "Emil",
*     },
*     {
*         first: "Max",
*         last: "Mustermann",
*     },
*     {
*         first: "Roman",
*         last: "Tisch",
*     },
* ]);
*
* const mappedModel = new MapModel(
*     model,
*     (data) => {
*         return data.last + ", " + data.first;
*     }
* );
*
* // prints "Emil, Hans"
* console.log(mappedModel.rowData(0));
*
* // prints "Mustermann, Max"
* console.log(mappedModel.rowData(1));
*
* // prints "Tisch, Roman"
* console.log(mappedModel.rowData(2));
*
* // Alternatively you can use the shortcut {@link MapModel.map}.
*
* const model = new ArrayModel<Name>([
*     {
*         first: "Hans",
*         last: "Emil",
*     },
*     {
*         first: "Max",
*         last: "Mustermann",
*     },
*     {
*         first: "Roman",
*         last: "Tisch",
*     },
* ]);
*
* const mappedModel = model.map(
*     (data) => {
*         return data.last + ", " + data.first;
*     }
* );
*
*
* // prints "Emil, Hans"
* console.log(mappedModel.rowData(0));
*
* // prints "Mustermann, Max"
* console.log(mappedModel.rowData(1));
*
* // prints "Tisch, Roman"
* console.log(mappedModel.rowData(2));
*
* // You can modifying the underlying {@link ArrayModel}:
*
* const model = new ArrayModel<Name>([
*     {
*         first: "Hans",
*         last: "Emil",
*     },
*     {
*         first: "Max",
*         last: "Mustermann",
*     },
*     {
*         first: "Roman",
*         last: "Tisch",
*     },
* ]);
*
* const mappedModel = model.map(
*     (data) => {
*         return data.last + ", " + data.first;
*     }
* );
*
* model.setRowData(1, { first: "Minnie", last: "Musterfrau" } );
*
* // prints "Emil, Hans"
* console.log(mappedModel.rowData(0));
*
* // prints "Musterfrau, Minnie"
* console.log(mappedModel.rowData(1));
*
* // prints "Tisch, Roman"
* console.log(mappedModel.rowData(2));
* ```
*/
export class MapModel<T, U> extends Model<U> {
    readonly sourceModel: Model<T>;
    #mapFunction: (data: T) => U

    /**
     * Constructs the MapModel with a source model and map functions.
     * @template T item type of source model that is mapped to U.
     * @template U the type of the mapped items.
     * @param sourceModel the wrapped model.
     * @param mapFunction maps the data from T to U.
     */
    constructor(
        sourceModel: Model<T>,
        mapFunction: (data: T) => U
    ) {
        super();
        this.sourceModel = sourceModel;
        this.#mapFunction = mapFunction;
    }

    /**
     * Returns the number of entries in the model.
     */
    rowCount(): number {
        return this.sourceModel.rowCount();
    }

    /**
     * Returns the data at the specified row.
     * @param row index in range 0..(rowCount() - 1).
     * @returns undefined if row is out of range otherwise the data.
     */
    rowData(row: number): U | undefined {
        let data = this.sourceModel.rowData(row);
        if (data === undefined) {
            return undefined;
        }
        return this.#mapFunction(data);
    }
}
}
/**
 * This interface describes the public API of a Slint component that is common to all instances. Use this to
 * show() the window on the screen, access the window and subsequent window properties, or start the
 * Slint event loop with run().
 */
export interface ComponentHandle {
    /**
     * Shows the window and runs the event loop. The returned promise is resolved when the event loop
     * is terminated, for example when the last window was closed, or {@link quitEventLoop} was called.
     *
     * This function is a convenience for calling {@link show}, followed by {@link runEventLoop}, and
     * {@link hide} when the event loop's promise is resolved.
     */
    run(): Promise<unknown>;

    /**
     * Shows the component's window on the screen.
     */
    show();

    /**
     * Hides the component's window, so that it is not visible anymore.
     */
    hide();

    /**
     * Returns the {@link Window} associated with this component instance.
     * The window API can be used to control different aspects of the integration into the windowing system, such as the position on the screen.
     */
    get window(): Window;
}

/**
 * @hidden
 */
class Component implements ComponentHandle {
    #instance: napi.ComponentInstance;

    /**
     * @hidden
     */
    constructor(instance: napi.ComponentInstance) {
        this.#instance = instance;
    }

    get window(): Window {
        return this.#instance.window();
    }

    /**
    * @hidden
    */
    get component_instance(): napi.ComponentInstance {
        return this.#instance;
    }

    async run() {
        this.show();
        await runEventLoop();
        this.hide();
    }

    show() {
        this.#instance.window().show();
    }

    hide() {
        this.#instance.window().hide();
    }
}

/**
 * Represents an errors that can be emitted by the compiler.
 */
export class CompileError extends Error {
    /**
     * List of {@link Diagnostic} items emitted while compiling .slint code.
     */
    diagnostics: napi.Diagnostic[];

    /**
     * Creates a new CompileError.
     *
     * @param message human-readable description of the error.
     * @param diagnostics represent a list of diagnostic items emitted while compiling .slint code.
     */
    constructor(message: string, diagnostics: napi.Diagnostic[]) {
        super(message);
        this.diagnostics = diagnostics;
    }
}

/**
 * LoadFileOptions are used to defines different optional parameters that can be used to configure the compiler.
 */
export interface LoadFileOptions {
    /**
     * If set to true warnings from the compiler will not be printed to the console.
     */
    quiet?: boolean;

    /**
     * Sets the widget style the compiler is currently using when compiling .slint files.
     */
    style?: string;

    /**
     * Sets the include paths used for looking up `.slint` imports to the specified vector of paths.
     */
    includePaths?: Array<string>;

    /**
     * Sets library paths used for looking up `@library` imports to the specified map of library names to paths.
     */
    libraryPaths?: Record<string, string>;
}

type LoadData = {
    fileData: {
        filePath: string,
        options?: LoadFileOptions
    },
    from: 'file'
} | {
    fileData: {
        source: string,
        filePath: string,
        options?: LoadFileOptions
    },
    from: 'source'
}

function loadSlint(loadData: LoadData): Object {
    const {filePath ,options} = loadData.fileData

    let compiler = new napi.ComponentCompiler();

    if (typeof options !== "undefined") {
        if (typeof options.style !== "undefined") {
            compiler.style = options.style;
        }
        if (typeof options.includePaths !== "undefined") {
            compiler.includePaths = options.includePaths;
        }
        if (typeof options.libraryPaths !== "undefined") {
            compiler.libraryPaths = options.libraryPaths;
        }
    }

    let definition = loadData.from === 'file' ? compiler.buildFromPath(filePath) : compiler.buildFromSource(loadData.fileData.source, filePath);

    let diagnostics = compiler.diagnostics;

    if (diagnostics.length > 0) {
        let warnings = diagnostics.filter(
            (d) => d.level == napi.DiagnosticLevel.Warning
        );

        if (typeof options !== "undefined" && options.quiet !== true) {
            warnings.forEach((w) => console.warn("Warning: " + w));
        }

        let errors = diagnostics.filter(
            (d) => d.level == napi.DiagnosticLevel.Error
        );

        if (errors.length > 0) {
            throw new CompileError("Could not compile " + filePath, errors);
        }
    }

    let slint_module = Object.create({});

    Object.defineProperty(slint_module, definition!.name.replace(/-/g, "_"), {
        value: function (properties: any) {
            let instance = definition!.create();

            if (instance == null) {
                throw Error(
                    "Could not create a component handle for" + filePath
                );
            }

            for (var key in properties) {
                let value = properties[key];

                if (value instanceof Function) {
                    instance.setCallback(key, value);
                } else {
                    instance.setProperty(key, properties[key]);
                }
            }

            let componentHandle = new Component(instance!);
            instance!.definition().properties.forEach((prop) => {
                let propName = prop.name.replace(/-/g, "_");

                if (componentHandle[propName] !== undefined) {
                    console.warn("Duplicated property name " + propName);
                } else {
                    Object.defineProperty(componentHandle, propName, {
                        get() {
                            return instance!.getProperty(prop.name);
                        },
                        set(value) {
                            instance!.setProperty(prop.name, value);
                        },
                        enumerable: true,
                    });
                }
            });

            instance!.definition().callbacks.forEach((cb) => {
                let callbackName = cb.replace(/-/g, "_");

                if (componentHandle[callbackName] !== undefined) {
                    console.warn("Duplicated callback name " + callbackName);
                } else {
                    Object.defineProperty(componentHandle, cb.replace(/-/g, "_"), {
                        get() {
                            return function () {
                                return instance!.invoke(cb, Array.from(arguments));
                            };
                        },
                        set(callback) {
                            instance!.setCallback(cb, callback);
                        },
                        enumerable: true,
                    });
                }
            });

            instance!.definition().functions.forEach((cb) => {
                let functionName = cb.replace(/-/g, "_");

                if (componentHandle[functionName] !== undefined) {
                    console.warn("Duplicated function name " + functionName);
                } else {
                    Object.defineProperty(componentHandle, cb.replace(/-/g, "_"), {
                        get() {
                            return function () {
                                return instance!.invoke(cb, Array.from(arguments));
                            };
                        },
                        enumerable: true,
                    });
                }
            });

            // globals
            instance!.definition().globals.forEach((globalName) => {
                if (componentHandle[globalName] !== undefined) {
                    console.warn("Duplicated property name " + globalName);
                } else {
                    let globalObject = Object.create({});

                    instance!.definition().globalProperties(globalName).forEach((prop) => {
                        let propName = prop.name.replace(/-/g, "_");

                        if (globalObject[propName] !== undefined) {
                            console.warn("Duplicated property name " + propName + " on global " + global);
                        } else {
                            Object.defineProperty(globalObject, propName, {
                                get() {
                                    return instance!.getGlobalProperty(globalName, prop.name);
                                },
                                set(value) {
                                    instance!.setGlobalProperty(globalName, prop.name, value);
                                },
                                enumerable: true,
                            });
                        }
                    });

                    instance!.definition().globalCallbacks(globalName).forEach((cb) => {
                        let callbackName = cb.replace(/-/g, "_");

                        if (globalObject[callbackName] !== undefined) {
                            console.warn("Duplicated property name " + cb + " on global " + global);
                        } else {
                            Object.defineProperty(globalObject, cb.replace(/-/g, "_"), {
                                get() {
                                    return function () {
                                        return instance!.invokeGlobal(globalName, cb, Array.from(arguments));
                                    };
                                },
                                set(callback) {
                                    instance!.setGlobalCallback(globalName, cb, callback);
                                },
                                enumerable: true,
                            });
                        }
                    });

                    instance!.definition().globalFunctions(globalName).forEach((cb) => {
                        let functionName = cb.replace(/-/g, "_");

                        if (globalObject[functionName] !== undefined) {
                            console.warn("Duplicated function name " + cb + " on global " + global);
                        } else {
                            Object.defineProperty(globalObject, cb.replace(/-/g, "_"), {
                                get() {
                                    return function () {
                                        return instance!.invokeGlobal(globalName, cb, Array.from(arguments));
                                    };
                                },
                                enumerable: true,
                            });
                        }
                    });

                    Object.defineProperty(componentHandle, globalName, {
                        get() {
                            return globalObject;
                        },
                        enumerable: true,
                    });
                }
            });

            return Object.seal(componentHandle);
        },
    });

    return Object.seal(slint_module);
}

/**
 * Loads the given Slint file and returns an objects that contains a functions to construct the exported
 * component of the slint file.
 *
 * The following example loads a "Hello World" style Slint file and changes the Text label to a new greeting:
 * `main.slint`:
 * ```
 * export component Main {
 *     in-out property <string> greeting <=> label.text;
 *     label := Text {
 *         text: "Hello World";
 *     }
 * }
 * ```
 *
 * ```js
 * import * as slint from "slint-ui";
 * let ui = slint.loadFile("main.slint");
 * let main = new ui.Main();
 * main.greeting = "Hello friends";
 * ```
 *
 * @param filePath A path to the file to load. If the path is a relative path, then it is resolved
 *                 against the process' working directory.
 * @param options Use {@link LoadFileOptions} to configure additional Slint compilation aspects,
 *                such as include search paths, library imports, or the widget style.
 * @returns The returned object is sealed and provides a property by the name of the component exported
 *          in the `.slint` file. In the above example the name of the property is `Main`. The property
 *          is a constructor function. Use it with the new operator to instantiate the component.
 *          The instantiated object exposes properties and callbacks, and implements the {@link ComponentHandle} interface.
 *          For more details about the exposed properties, see [Instantiating A Component](../index.html#md:instantiating-a-component).
 * @throws {@link CompileError} if errors occur during compilation.
 */
export function loadFile(filePath: string, options?: LoadFileOptions): Object {
    return loadSlint({
        fileData:{ filePath, options },
        from:'file',
    })
}

/**
 * Loads the given Slint source code and returns an object that contains a function to construct the exported
 * component of the Slint source code.
 *
 * The following example loads a "Hello World" style Slint source code and changes the Text label to a new greeting:
 * ```js
 * import * as slint from "slint-ui";
 * const source = `export component Main {
 *      in-out property <string> greeting <=> label.text;
 *      label := Text {
 *          text: "Hello World";
 *      }
 * }`; // The content of main.slint
 * let ui = slint.loadSource(source, "main.js");
 * let main = new ui.Main();
 * main.greeting = "Hello friends";
 * ```
 * @param source The Slint source code to load.
 * @param filePath A path to the file to show log. If the path is a relative path, then it is resolved
 *                 against the process' working directory.
 * @param options Use {@link LoadFileOptions} to configure additional Slint compilation aspects,
 *                such as include search paths, library imports, or the widget style.
 * @returns The returned object is sealed and provides a property by the name of the component exported
 *          in the `.slint` file. In the above example the name of the property is `Main`. The property
 *          is a constructor function. Use it with the new operator to instantiate the component.
 *          The instantiated object exposes properties and callbacks, and implements the {@link ComponentHandle} interface.
 *          For more details about the exposed properties, see [Instantiating A Component](../index.html#md:instantiating-a-component).
 * @throws {@link CompileError} if errors occur during compilation.
 */
export function loadSource(source: string, filePath: string, options?: LoadFileOptions): Object {
    return loadSlint({
        fileData:{ filePath, options, source },
        from:'source',
    })
}

class EventLoop {
    #quit_loop: boolean = false;
    #terminationPromise: Promise<unknown> | null = null;
    #terminateResolveFn: ((_value: unknown) => void) | null;

    constructor() {
    }

    start(running_callback?: Function, quitOnLastWindowClosed: boolean = true): Promise<unknown> {
        if (this.#terminationPromise != null) {
            return this.#terminationPromise;
        }

        this.#terminationPromise = new Promise((resolve) => {
            this.#terminateResolveFn = resolve;
        });
        this.#quit_loop = false;

        napi.setQuitOnLastWindowClosed(quitOnLastWindowClosed);

        if (running_callback != undefined) {
            napi.invokeFromEventLoop(() => {
                running_callback();
                running_callback = undefined;
            });
        }

        // Give the nodejs event loop 16 ms to tick. This polling is sub-optimal, but it's the best we
        // can do right now.
        const nodejsPollInterval = 16;
        let id = setInterval(() => {
            if (napi.processEvents() == napi.ProcessEventsResult.Exited || this.#quit_loop) {
                clearInterval(id);
                this.#terminateResolveFn!(undefined);
                this.#terminateResolveFn = null;
                this.#terminationPromise = null;
                return;
            }
        }, nodejsPollInterval);

        return this.#terminationPromise;
    }

    quit() {
        this.#quit_loop = true;
    }
}

var globalEventLoop: EventLoop = new EventLoop;

/**
 * Spins the Slint event loop and returns a promise that resolves when the loop terminates.
 *
 * If the event loop is already running, then this function returns the same promise as from
 * the earlier invocation.
 *
 * @param args As Function it defines a callback that's invoked once when the event loop is running.
 * @param args.runningCallback Optional callback that's invoked once when the event loop is running.
 *                         The function's return value is ignored.
 * @param args.quitOnLastWindowClosed if set to `true` event loop is quit after last window is closed otherwise
 *                          it is closed after {@link quitEventLoop} is called.
 *                          This is useful for system tray applications where the application needs to stay alive even if no windows are visible.
 *                          (default true).
 *
 * Note that the event loop integration with Node.js is slightly imperfect. Due to conflicting
 * implementation details between Slint's and Node.js' event loop, the two loops are merged
 * by spinning one after the other, at 16 millisecond intervals. This means that when the
 * application is idle, it continues to consume a low amount of CPU cycles, checking if either
 * event loop has any pending events.
 */
export function runEventLoop(args?: Function | { runningCallback?: Function; quitOnLastWindowClosed? : boolean }): Promise<unknown>{
    if (args === undefined) {
        return globalEventLoop.start(undefined);
    }

    if (args instanceof Function) {
        return globalEventLoop.start(args);
    }

    return globalEventLoop.start(args.runningCallback, args.quitOnLastWindowClosed);
}

/**
 * Stops a spinning event loop. This function returns immediately, and the promise returned
 from run_event_loop() will resolve in a later tick of the nodejs event loop.
 */
export function quitEventLoop() {
    globalEventLoop.quit()
}

/**
 * @hidden
 */
export namespace private_api {
    export import mock_elapsed_time = napi.mockElapsedTime;
    export import get_mocked_time = napi.getMockedTime;
    export import ComponentCompiler = napi.ComponentCompiler;
    export import ComponentDefinition = napi.ComponentDefinition;
    export import ComponentInstance = napi.ComponentInstance;
    export import ValueType = napi.ValueType;
    export import Window = napi.Window;

    export import SlintBrush = napi.SlintBrush;
    export import SlintRgbaColor = napi.SlintRgbaColor;
    export import SlintSize = napi.SlintSize;
    export import SlintPoint = napi.SlintPoint;
    export import SlintImageData = napi.SlintImageData;

    export function send_mouse_click(
        component: Component,
        x: number,
        y: number
    ) {
        component.component_instance.sendMouseClick(x, y);
    }

    export function send_keyboard_string_sequence(
        component: Component,
        s: string
    ) {
        component.component_instance.sendKeyboardStringSequence(s);
    }

    export import initTesting = napi.initTesting;
}