QT和vue交互的实现示例
更新时间:2023年07月20日 15:43:18 作者:南有嘉念
本文主要介绍了QT和vue交互的实现示例,文中通过示例代码介绍的非常详细,对大家的学习或者工作具有一定的参考学习价值,需要的朋友们下面随着小编来一起学习学习吧
1、首先在vue项目中引入qwebchannel
/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Copyright (C) 2016 Klarälvdalens Datakonsult AB, a KDAB Group company, info@kdab.com, author Milian Wolff <milian.wolff@kdab.com> ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtWebChannel module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ "use strict"; var QWebChannelMessageTypes = { signal: 1, propertyUpdate: 2, init: 3, idle: 4, debug: 5, invokeMethod: 6, connectToSignal: 7, disconnectFromSignal: 8, setProperty: 9, response: 10, }; export var QWebChannel = function(transport, initCallback) { if (typeof transport !== "object" || typeof transport.send !== "function") { console.error("The QWebChannel expects a transport object with a send function and onmessage callback property." + " Given is: transport: " + typeof(transport) + ", transport.send: " + typeof(transport.send)); return; } var channel = this; this.transport = transport; this.send = function(data) { if (typeof(data) !== "string") { data = JSON.stringify(data); } channel.transport.send(data); } this.transport.onmessage = function(message) { var data = message.data; if (typeof data === "string") { data = JSON.parse(data); } switch (data.type) { case QWebChannelMessageTypes.signal: channel.handleSignal(data); break; case QWebChannelMessageTypes.response: channel.handleResponse(data); break; case QWebChannelMessageTypes.propertyUpdate: channel.handlePropertyUpdate(data); break; default: console.error("invalid message received:", message.data); break; } } this.execCallbacks = {}; this.execId = 0; this.exec = function(data, callback) { if (!callback) { // if no callback is given, send directly channel.send(data); return; } if (channel.execId === Number.MAX_VALUE) { // wrap channel.execId = Number.MIN_VALUE; } if (data.hasOwnProperty("id")) { console.error("Cannot exec message with property id: " + JSON.stringify(data)); return; } data.id = channel.execId++; channel.execCallbacks[data.id] = callback; channel.send(data); }; this.objects = {}; this.handleSignal = function(message) { var object = channel.objects[message.object]; if (object) { object.signalEmitted(message.signal, message.args); } else { console.warn("Unhandled signal: " + message.object + "::" + message.signal); } } this.handleResponse = function(message) { if (!message.hasOwnProperty("id")) { console.error("Invalid response message received: ", JSON.stringify(message)); return; } channel.execCallbacks[message.id](message.data); delete channel.execCallbacks[message.id]; } this.handlePropertyUpdate = function(message) { message.data.forEach(data => { var object = channel.objects[data.object]; if (object) { object.propertyUpdate(data.signals, data.properties); } else { console.warn("Unhandled property update: " + data.object + "::" + data.signal); } }); channel.exec({ type: QWebChannelMessageTypes.idle }); } this.debug = function(message) { channel.send({ type: QWebChannelMessageTypes.debug, data: message }); }; channel.exec({ type: QWebChannelMessageTypes.init }, function(data) { for (const objectName of Object.keys(data)) { new QObject(objectName, data[objectName], channel); } // now unwrap properties, which might reference other registered objects for (const objectName of Object.keys(channel.objects)) { channel.objects[objectName].unwrapProperties(); } if (initCallback) { initCallback(channel); } channel.exec({ type: QWebChannelMessageTypes.idle }); }); }; function QObject(name, data, webChannel) { this.__id__ = name; webChannel.objects[name] = this; // List of callbacks that get invoked upon signal emission this.__objectSignals__ = {}; // Cache of all properties, updated when a notify signal is emitted this.__propertyCache__ = {}; var object = this; // ---------------------------------------------------------------------- this.unwrapQObject = function(response) { if (response instanceof Array) { // support list of objects return response.map(qobj => object.unwrapQObject(qobj)) } if (!(response instanceof Object)) return response; if (!response["__QObject*__"] || response.id === undefined) { var jObj = {}; for (const propName of Object.keys(response)) { jObj[propName] = object.unwrapQObject(response[propName]); } return jObj; } var objectId = response.id; if (webChannel.objects[objectId]) return webChannel.objects[objectId]; if (!response.data) { console.error("Cannot unwrap unknown QObject " + objectId + " without data."); return; } var qObject = new QObject(objectId, response.data, webChannel); qObject.destroyed.connect(function() { if (webChannel.objects[objectId] === qObject) { delete webChannel.objects[objectId]; // reset the now deleted QObject to an empty {} object // just assigning {} though would not have the desired effect, but the // below also ensures all external references will see the empty map // NOTE: this detour is necessary to workaround QTBUG-40021 Object.keys(qObject).forEach(name => delete qObject[name]); } }); // here we are already initialized, and thus must directly unwrap the properties qObject.unwrapProperties(); return qObject; } this.unwrapProperties = function() { for (const propertyIdx of Object.keys(object.__propertyCache__)) { object.__propertyCache__[propertyIdx] = object.unwrapQObject(object.__propertyCache__[propertyIdx]); } } function addSignal(signalData, isPropertyNotifySignal) { var signalName = signalData[0]; var signalIndex = signalData[1]; object[signalName] = { connect: function(callback) { if (typeof(callback) !== "function") { console.error("Bad callback given to connect to signal " + signalName); return; } object.__objectSignals__[signalIndex] = object.__objectSignals__[signalIndex] || []; object.__objectSignals__[signalIndex].push(callback); // only required for "pure" signals, handled separately for properties in propertyUpdate if (isPropertyNotifySignal) return; // also note that we always get notified about the destroyed signal if (signalName === "destroyed" || signalName === "destroyed()" || signalName === "destroyed(QObject*)") return; // and otherwise we only need to be connected only once if (object.__objectSignals__[signalIndex].length == 1) { webChannel.exec({ type: QWebChannelMessageTypes.connectToSignal, object: object.__id__, signal: signalIndex }); } }, disconnect: function(callback) { if (typeof(callback) !== "function") { console.error("Bad callback given to disconnect from signal " + signalName); return; } object.__objectSignals__[signalIndex] = object.__objectSignals__[signalIndex] || []; var idx = object.__objectSignals__[signalIndex].indexOf(callback); if (idx === -1) { console.error("Cannot find connection of signal " + signalName + " to " + callback.name); return; } object.__objectSignals__[signalIndex].splice(idx, 1); if (!isPropertyNotifySignal && object.__objectSignals__[signalIndex].length === 0) { // only required for "pure" signals, handled separately for properties in propertyUpdate webChannel.exec({ type: QWebChannelMessageTypes.disconnectFromSignal, object: object.__id__, signal: signalIndex }); } } }; } /** * Invokes all callbacks for the given signalname. Also works for property notify callbacks. */ function invokeSignalCallbacks(signalName, signalArgs) { var connections = object.__objectSignals__[signalName]; if (connections) { connections.forEach(function(callback) { callback.apply(callback, signalArgs); }); } } this.propertyUpdate = function(signals, propertyMap) { // update property cache for (const propertyIndex of Object.keys(propertyMap)) { var propertyValue = propertyMap[propertyIndex]; object.__propertyCache__[propertyIndex] = this.unwrapQObject(propertyValue); } for (const signalName of Object.keys(signals)) { // Invoke all callbacks, as signalEmitted() does not. This ensures the // property cache is updated before the callbacks are invoked. invokeSignalCallbacks(signalName, signals[signalName]); } } this.signalEmitted = function(signalName, signalArgs) { invokeSignalCallbacks(signalName, this.unwrapQObject(signalArgs)); } function addMethod(methodData) { var methodName = methodData[0]; var methodIdx = methodData[1]; // Fully specified methods are invoked by id, others by name for host-side overload resolution var invokedMethod = methodName[methodName.length - 1] === ')' ? methodIdx : methodName object[methodName] = function() { var args = []; var callback; var errCallback; for (var i = 0; i < arguments.length; ++i) { var argument = arguments[i]; if (typeof argument === "function") callback = argument; else if (argument instanceof QObject && webChannel.objects[argument.__id__] !== undefined) args.push({ "id": argument.__id__ }); else args.push(argument); } var result; // during test, webChannel.exec synchronously calls the callback // therefore, the promise must be constucted before calling // webChannel.exec to ensure the callback is set up if (!callback && (typeof(Promise) === 'function')) { result = new Promise(function(resolve, reject) { callback = resolve; errCallback = reject; }); } webChannel.exec({ "type": QWebChannelMessageTypes.invokeMethod, "object": object.__id__, "method": invokedMethod, "args": args }, function(response) { if (response !== undefined) { var result = object.unwrapQObject(response); if (callback) { (callback)(result); } } else if (errCallback) { (errCallback)(); } }); return result; }; } function bindGetterSetter(propertyInfo) { var propertyIndex = propertyInfo[0]; var propertyName = propertyInfo[1]; var notifySignalData = propertyInfo[2]; // initialize property cache with current value // NOTE: if this is an object, it is not directly unwrapped as it might // reference other QObject that we do not know yet object.__propertyCache__[propertyIndex] = propertyInfo[3]; if (notifySignalData) { if (notifySignalData[0] === 1) { // signal name is optimized away, reconstruct the actual name notifySignalData[0] = propertyName + "Changed"; } addSignal(notifySignalData, true); } Object.defineProperty(object, propertyName, { configurable: true, get: function() { var propertyValue = object.__propertyCache__[propertyIndex]; if (propertyValue === undefined) { // This shouldn't happen console.warn("Undefined value in property cache for property \"" + propertyName + "\" in object " + object.__id__); } return propertyValue; }, set: function(value) { if (value === undefined) { console.warn("Property setter for " + propertyName + " called with undefined value!"); return; } object.__propertyCache__[propertyIndex] = value; var valueToSend = value; if (valueToSend instanceof QObject && webChannel.objects[valueToSend.__id__] !== undefined) valueToSend = { "id": valueToSend.__id__ }; webChannel.exec({ "type": QWebChannelMessageTypes.setProperty, "object": object.__id__, "property": propertyIndex, "value": valueToSend }); } }); } // ---------------------------------------------------------------------- data.methods.forEach(addMethod); data.properties.forEach(bindGetterSetter); data.signals.forEach(function(signal) { addSignal(signal, false); }); Object.assign(object, data.enums); } //required for use with nodejs // if (typeof module === 'object') { // module.exports = { // QWebChannel: QWebChannel // }; // }
2、在main.js引入
import { createApp } from 'vue' import App from './App.vue' import router from './router' import {QWebChannel} from '../public/js/qwebchannel.js' import store from './store' export var qtWebChannel = null; new QWebChannel(qt.webChannelTransport, (channel) => { qtWebChannel = channel.objects.qtJSBridge; }); createApp(App).use(store).use(router).mount('#app')
3、在页面中使用
<script setup name="index"> import { qtWebChannel } from "@/main.js"; import { getCurrentInstance, onMounted, reactive, ref } from "vue"; onMounted(() => { let msgType = "loadDataReq"; let obj = { msgType }; setTimeout(() => { qtWebChannel.sendMessageToJS.connect((response) => { let dataQt = {}; if (response) { dataQt = JSON.parse(response); } }) qtWebChannel.sendMessageToQt(JSON.stringify(obj)); }, 1000); }); </script>
4、router配置
import { createRouter, createWebHashHistory } from 'vue-router' const routes = [ { path: '/', name: 'index', component: ()=>import('@/views/index/Index') }, ] const router = createRouter({ //此处只能用hash模式,不然<router-view>里面的东西不能加载 history:createWebHashHistory(), routes }) export default router
5、打包后将资源文件在QT项目中用qrc引入
6、效果图
注意:history只能用hash模式,不然里面的东西不能加载
到此这篇关于QT和vue交互的实现示例的文章就介绍到这了,更多相关QT vue交互内容请搜索脚本之家以前的文章或继续浏览下面的相关文章希望大家以后多多支持脚本之家!
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