1672232297
The Importance of Web Design and Development for Modern Businesses
For businesses, poor website design can result in a number of difficulties. Low conversion rates, low engagement rates, and other issues are among them.
The problems with bad web design are numerous. A website with poor web design may be challenging to navigate and understand. A website's poor web design can lead to a bad user experience and make it difficult to use.
The ability of the business to reach its target audience or customers can also be hampered by poor web design. Your website might not be mobile-device optimized, making it less usable and accessible than it could be.
The business's overall success is impacted by poor web design because it prevents it from expanding in terms of both size and reputation.
For this reason, companies should spend more on web design and development.
What is web development and design?
Let's define proper web design and development before determining their significance.
Web design and development create user-friendly, aesthetically pleasing, and device-accessible websites and applications.
The visual component of a website or application is called web design. It covers every aspect of the website, including the typography, colors, graphics, and images. These elements must be designed by web developers. Prior to launch, a web developer will also create a site map for the website or application.
A website or application is first made to function through web development. Database management, server configuration, programming scripts, and more are all included. It's not necessary for web developers to be graphic design experts. However, they must learn how to design a user interface that is responsive on a variety of gadgets, including desktop computers, tablets, and smartphones.
Web flow development is a fantastic alternative that enables designers to create websites visually without programming knowledge. While the developer can build the site using a visual system, Webflow creates a professional-quality site in its own semantic code.
8 advantages of web development and design for your company
Let's talk specifically about the advantages that your company can gain from investing more in better web design and development now that you are more knowledgeable about web design and web development for your business.
1. Increased sales
A good website relies on both website design and development. Your business will experience sales growth and improve with a well-designed website.
Your business will experience sales growth and improve with a well-designed website. This can be done by increasing the number of people who visit your website using effective methods for web design and development, such as the use of click-worthy headlines.
2. SEO competition
The internet has grown to be an essential part of how we do business. We must contend with the best of them in a public arena. And among the most important elements in your company's online success are a web design and web development.
For a website to have a competitive SEO, it must be up-to-date with all current trends, user-friendly, and visually appealing
When designing or developing your website, you must take into account a variety of factors, including how quickly it loads, how much data it consumes, whether or not it is mobile-friendly, and whether or not the content is pertinent to and interesting to your target audience.
Your website can become more SEO-friendly with the aid of technical SEO, which is derived from web development and design.
3. An accessible website
A user-friendly website can encourage visitors to stay on your page for longer, according to Sytian Productions web design Philippines.
Any business that wants to succeed in the current digital environment needs a website as its most important marketing tool. It is the first thing prospective customers see, and it will determine whether or not they choose to do business with you.
Your customers will find it challenging to navigate your website, find what they're looking for, and complete a purchase if it is not user-friendly.
4. Consistently maintained quality
The area of website design and website development are distinct. One is focused on the visual appeal of your website, and the other is focused on its functionality. These two areas are intertwined because a website that performs poorly won't attract a lot of visitors. Additionally, few people will frequent a website that looks unappealing.
To maintain the consistency of your company's brand across all platforms, web development and design collaborate.
5. Fosters long-term relationships with customers
Because it gives you a platform to interact with your customers, web design and development can assist you in establishing lasting customer relationships
You won't be able to develop the kind of long-lasting relationships with your clients that you need without a good website.
What distinguishes your company from other companies in your industry is the design and development of your website. No matter how great your product or service is, customers won't become paying customers if they can't find it on your website.
6. Reaching broader audiences
People can find information on the internet. However, occasionally the website's interface may be difficult to use or the text on the screen may be difficult to read. You may need to work with a web developer and a web designer if you want your website to be accessible to more people.
For people with disabilities like blindness or low vision, hearing loss or deafness, learning disabilities, issues with limited movement or dexterity (like arthritis), speech impairments, or combinations of these, web design and development can help make websites more accessible. This implies that there are numerous ways in which they can assist you in connecting with larger audiences.
7. Modern marketing techniques
The two fundamental pillars of any marketing strategy are web development and design. Web development is a science that can keep you up to date on the most recent marketing trends, whereas web design is an art that can make or break your marketing.
Similar to a business card is a website. To draw in potential customers, it needs to be thoughtfully designed and developed. A website is another way to advertise your goods and services, which will aid in your ability to make money.
8. Genuine brand identity
The first impression potential customers have of your company is its website.
Your website's development and design have a significant impact on how authentic your brand is.
A good user experience can be achieved with simple layouts and designs, web designers should keep in mind. To ensure data security, web developers should instead take into account security features like encryption and backups.
Last Thoughts
A good website will be at the centre of it whether you're a solopreneur or a small business looking to make a mark, as web design and web development have changed how many businesses operate.
To ensure the improvement of your business through the overall performance of your website, you must partner with a good Web Designing And Development Company.
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1656982800
Como Exportar Uma Função De C++ Para React Native
Hoje, continuo compartilhando minha experiência com o Módulo Nativo e C++.
Como veremos muitas bibliotecas C/C++ escrevendo para plataformas móveis, precisamos implementá-las em nosso aplicativo iOS ou React Native. É por isso que quero escrever um artigo sobre como exportar uma função de C++ para React Native, que é fácil de entender e economiza tempo para iniciantes. Vou começar com um novo aplicativo nativo de reação
1. Crie um novo aplicativo nativo de reação, abra seu terminal e execute
npx react-native init NativeModules2. Abra o Xcode e navegue até NativeModules/ios/NativeModule.xcworkspace
3. Trabalhando no lado C++
Crie um novo arquivo C++ e nomeie-oCpp_to_RN.cpp
Quando criamos um novo arquivo C++, o Xcode criará um arquivo de cabeçalho Cpp_to_RN.hpp para nós
Primeiro, abra o arquivo “ Cpp_to_RN.hpp” e crie uma classe que inclua uma função sem o corpo.
#ifndef Cpp_to_RN_hpp
#define Cpp_to_RN_hpp#include <stdio.h>
#include <string>class Cpp_to_RN {
public:
std::string sayHello();
};#endif /* Cpp_to_RN_hpp */
Em seguida, abra o Cpp_to_RN.cpparquivo e escreva uma função simples “ sayHello()”
#include "Cpp_to_RN.hpp"
std::string Cpp_to_RN::sayHello(){
return "Hello from CPP";
}
4. Trabalhando no arquivo C++ de encapsulamento.
Para encapsular os arquivos C++ e exportá-los para o lado IOS (swift)
uma. Crie um arquivo Objective C e nomeie-oCpp_to_RN.m
Renomeie o Cpp_to_RN.m para Cpp_to_RN.mm
b. Abra o WrapCpp_to_RN.mm arquivo e escreva o conteúdo do corpo que envolverá a função sayHellodo arquivo C++.
#import <Foundation/Foundation.h>
#import "WrapCpp_to_RN.h"
#import "Cpp_to_RN.hpp"@implementation WrapCpp_to_RN- (NSString *) sayHello {
Cpp_to_RN fromCPP;
std::string helloWorldMessage = fromCPP.sayHello();
return [NSString
stringWithCString:helloWorldMessage.c_str()
encoding:NSUTF8StringEncoding];
}
@end
c. Crie um arquivo de cabeçalho e nomeie-oWrapCpp_to_RN.h
Exporte a wrapSayHellofunção para o arquivo Swift
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@end
5. Trabalhando no lado iOS (Swift)
Para exportar a função C++ para React Native
uma. Crie um arquivo Swift e nomeie-oSendCpp_to_RN.swift
Observação: o Xcode nos pedirá para criar um NativeModules-Bridging-Header.harquivo para nós.
Crie uma classe SendCpp_to_RNe declare-a comoNSObject
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@endEscreva uma função requiresMainQueueSetup()para evitar avisos quando executamos o aplicativo
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@endEscreva uma função para envolver o WrapCpp_to_RN()fromWrapCpp_to_RN.mm
import Foundation@objc(SendCpp_to_RN)
class SendCpp_to_RN : NSObject {
@objc static func requiresMainQueueSetup() -> Bool {
return false
}
@objc func fromCpp(_ successCallback: RCTResponseSenderBlock) -> Void {
successCallback([NSNull(), WrapCpp_to_RN().wrapSayHello() as Any])
}}
b. Exporte uma função wrap no arquivo Swift para React Native
Crie um arquivo Objective C para exportar a classe Swift e sua função usandoCallback
#import <React/RCTBridgeModule.h>
#import <Foundation/Foundation.h>
#import "UIKit/UIKit.h"
@interface RCT_EXTERN_MODULE(SendCpp_to_RN, NSObject)RCT_EXTERN_METHOD(fromCpp:(RCTResponseSenderBlock)successCallback)@end
c. Conecte o Swift ao React Native, abra o NativeModules-Bridging-Header.h arquivo
#import <React/RCTBridgeModule.h>#import <React/RCTViewManager.h>#import "WrapCpp_to_RN.h"
6. Trabalhando no lado React Native
Chame a classe Swift e suas funções
import React from 'react';
import {StyleSheet, Text, View, NativeModules, Button} from 'react-native';const App = () => {
const onPress = () => {
const {SendCpp_to_RN} = NativeModules;
SendCpp_to_RN.fromCpp((_err, res) => console.log(res));
};
return (
<View style={styles.container}>
<Text> Practice !</Text>
<Button title="C++ to React Native" color="#841584" onPress={onPress} />
</View>
);
};
const styles = StyleSheet.create({
container: {
flex: 1,
justifyContent: 'center',
alignItems: 'center',
},
});
export default App;
E pronto, basta executar o aplicativo
react-native run-iosOu apenas clique no botão “executar” no Xcode e veja o que fizemos.
Espero que meu artigo seja útil para você, obrigado pelo tempo de leitura.
1656977400
Cómo Exportar Una Función De C++ A React Native
Hoy sigo compartiendo mi experiencia con el Módulo Nativo y C++.
Dado que veremos muchas bibliotecas C/C++ escribiendo para las plataformas móviles, debemos implementarlas en nuestra aplicación iOS o React Native. Por eso quiero escribir un artículo sobre cómo exportar una función de C++ a React Native, que es fácil de entender y ahorra tiempo a los principiantes. Comenzaré con una nueva aplicación nativa de reacción.
1. Cree una nueva aplicación nativa de reacción, abra su terminal y ejecute
npx react-native init NativeModules2. Abra Xcode y vaya a NativeModules/ios/NativeModule.xcworkspace
3. Trabajando en el lado de C++
Cree un nuevo archivo C++ y asígnele un nombreCpp_to_RN.cpp
Cuando creamos un nuevo archivo C++, Xcode creará un archivo de encabezado Cpp_to_RN.hpp para nosotros
Primero, abra el archivo " Cpp_to_RN.hpp" y cree una clase que incluya una función sin el cuerpo.
#ifndef Cpp_to_RN_hpp
#define Cpp_to_RN_hpp#include <stdio.h>
#include <string>class Cpp_to_RN {
public:
std::string sayHello();
};#endif /* Cpp_to_RN_hpp */
Luego abre el Cpp_to_RN.cpparchivo y escribe una función simple “ sayHello()”
#include "Cpp_to_RN.hpp"
std::string Cpp_to_RN::sayHello(){
return "Hello from CPP";
}
4. Trabajando en el archivo Wrapping C++.
Para envolver los archivos C++ y exportarlos al lado IOS (swift)
una. Cree un archivo Objective C y asígnele un nombreCpp_to_RN.m
Renombrar el Cpp_to_RN.m a Cpp_to_RN.mm
b. Abra el WrapCpp_to_RN.mm archivo y escriba el contenido del cuerpo que envolverá la función sayHellodel archivo C++.
#import <Foundation/Foundation.h>
#import "WrapCpp_to_RN.h"
#import "Cpp_to_RN.hpp"@implementation WrapCpp_to_RN- (NSString *) sayHello {
Cpp_to_RN fromCPP;
std::string helloWorldMessage = fromCPP.sayHello();
return [NSString
stringWithCString:helloWorldMessage.c_str()
encoding:NSUTF8StringEncoding];
}
@end
C. Cree un archivo de encabezado y asígnele un nombreWrapCpp_to_RN.h
Exportar la wrapSayHellofunción al archivo Swift
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@end
5. Trabajando en el lado de iOS (Swift)
Para exportar la función C++ a React Native
una. Cree un archivo Swift y asígnele un nombreSendCpp_to_RN.swift
Nota: Xcode nos pedirá que creemos un NativeModules-Bridging-Header.harchivo para nosotros.
Crear una clase SendCpp_to_RNy declararla comoNSObject
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@endEscribir una función requiresMainQueueSetup()para evitar advertencias cuando ejecutamos la aplicación.
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@endEscriba una función para envolver el WrapCpp_to_RN()fromWrapCpp_to_RN.mm
import Foundation@objc(SendCpp_to_RN)
class SendCpp_to_RN : NSObject {
@objc static func requiresMainQueueSetup() -> Bool {
return false
}
@objc func fromCpp(_ successCallback: RCTResponseSenderBlock) -> Void {
successCallback([NSNull(), WrapCpp_to_RN().wrapSayHello() as Any])
}}
b. Exporte una función de ajuste en un archivo Swift a React Native
Cree un archivo Objective C para exportar la clase Swift y su función usandoCallback
#import <React/RCTBridgeModule.h>
#import <Foundation/Foundation.h>
#import "UIKit/UIKit.h"
@interface RCT_EXTERN_MODULE(SendCpp_to_RN, NSObject)RCT_EXTERN_METHOD(fromCpp:(RCTResponseSenderBlock)successCallback)@end
C. Conecte Swift a React Native, abra el NativeModules-Bridging-Header.h archivo
#import <React/RCTBridgeModule.h>#import <React/RCTViewManager.h>#import "WrapCpp_to_RN.h"
6. Trabajando en el lado de React Native
Llame a la clase Swift y sus funciones
import React from 'react';
import {StyleSheet, Text, View, NativeModules, Button} from 'react-native';const App = () => {
const onPress = () => {
const {SendCpp_to_RN} = NativeModules;
SendCpp_to_RN.fromCpp((_err, res) => console.log(res));
};
return (
<View style={styles.container}>
<Text> Practice !</Text>
<Button title="C++ to React Native" color="#841584" onPress={onPress} />
</View>
);
};
const styles = StyleSheet.create({
container: {
flex: 1,
justifyContent: 'center',
alignItems: 'center',
},
});
export default App;
Y listo, solo ejecuta la aplicación
react-native run-iosO simplemente haga clic en el botón "ejecutar" en Xcode y vea lo que hemos hecho.
Espero que mi artículo te sea útil, gracias por tu tiempo de lectura.
1656984600
如何将函数从 C++ 导出到 React Native
今天,我继续分享我在 Native Module 和 C++ 方面的经验。
由于我们将看到很多为移动平台编写的 C/C++ 库,因此我们需要将它们实现到我们的 iOS 或 React Native 应用程序中。这就是为什么我想写一篇关于如何将一个函数从 C++ 导出到 React Native 的文章,它易于理解并且为初学者节省了时间。我将从一个新的 react native 应用程序开始
1.新建一个react native app,打开你的终端运行
npx react-native init NativeModules2. 打开 Xcode 并导航到 NativeModules/ios/NativeModule.xcworkspace
3. 在 C++ 端工作
创建一个新的 C++ 文件并命名Cpp_to_RN.cpp
当我们创建一个新的 C++ 文件时,Xcode 会Cpp_to_RN.hpp 为我们创建一个头文件
首先,打开“ Cpp_to_RN.hpp”文件,并创建一个包含没有主体的函数的类。
#ifndef Cpp_to_RN_hpp
#define Cpp_to_RN_hpp#include <stdio.h>
#include <string>class Cpp_to_RN {
public:
std::string sayHello();
};#endif /* Cpp_to_RN_hpp */
然后打开Cpp_to_RN.cpp文件,写一个简单的函数“ sayHello()”
#include "Cpp_to_RN.hpp"
std::string Cpp_to_RN::sayHello(){
return "Hello from CPP";
}
4. 处理包装 C++ 文件。
包装 C++ 文件并将它们导出到 IOS (swift) 端
一个。创建一个Objective C文件并命名Cpp_to_RN.m
重命名Cpp_to_RN.m 为 Cpp_to_RN.mm
湾。打开WrapCpp_to_RN.mm 文件并编写将包装sayHelloC++ 文件中的函数的正文内容。
#import <Foundation/Foundation.h>
#import "WrapCpp_to_RN.h"
#import "Cpp_to_RN.hpp"@implementation WrapCpp_to_RN- (NSString *) sayHello {
Cpp_to_RN fromCPP;
std::string helloWorldMessage = fromCPP.sayHello();
return [NSString
stringWithCString:helloWorldMessage.c_str()
encoding:NSUTF8StringEncoding];
}
@end
C。创建头文件并命名WrapCpp_to_RN.h
将函数导出wrapSayHello到 Swift 文件
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@end
5. 在 iOS (Swift) 端工作
将 C++ 函数导出到 React Native
一个。创建一个 Swift 文件并命名SendCpp_to_RN.swift
注意:Xcode 会要求我们为我们创建一个NativeModules-Bridging-Header.h文件。
创建一个类SendCpp_to_RN并将其声明为NSObject
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@end编写一个函数requiresMainQueueSetup()来防止我们运行应用程序时出现警告
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@end编写一个函数来包装WrapCpp_to_RN()fromWrapCpp_to_RN.mm
import Foundation@objc(SendCpp_to_RN)
class SendCpp_to_RN : NSObject {
@objc static func requiresMainQueueSetup() -> Bool {
return false
}
@objc func fromCpp(_ successCallback: RCTResponseSenderBlock) -> Void {
successCallback([NSNull(), WrapCpp_to_RN().wrapSayHello() as Any])
}}
湾。将 Swift 文件中的包装函数导出到 React Native
创建一个 Objective C 文件以导出 Swift 类及其函数,使用Callback
#import <React/RCTBridgeModule.h>
#import <Foundation/Foundation.h>
#import "UIKit/UIKit.h"
@interface RCT_EXTERN_MODULE(SendCpp_to_RN, NSObject)RCT_EXTERN_METHOD(fromCpp:(RCTResponseSenderBlock)successCallback)@end
C。将 Swift 连接到 React Native,打开NativeModules-Bridging-Header.h 文件
#import <React/RCTBridgeModule.h>#import <React/RCTViewManager.h>#import "WrapCpp_to_RN.h"
6. 在 React Native 方面工作
调用 Swift 类及其函数
import React from 'react';
import {StyleSheet, Text, View, NativeModules, Button} from 'react-native';const App = () => {
const onPress = () => {
const {SendCpp_to_RN} = NativeModules;
SendCpp_to_RN.fromCpp((_err, res) => console.log(res));
};
return (
<View style={styles.container}>
<Text> Practice !</Text>
<Button title="C++ to React Native" color="#841584" onPress={onPress} />
</View>
);
};
const styles = StyleSheet.create({
container: {
flex: 1,
justifyContent: 'center',
alignItems: 'center',
},
});
export default App;
我们完成了,只需运行应用程序
react-native run-ios或者只需单击 Xcode 上的“运行”按钮,看看我们做了什么。
希望我的文章对您有所帮助,感谢您的阅读时间。
1656979200
Comment Exporter Une Fonction De C++ Vers React Native
Aujourd'hui, je continue à partager mon expérience avec le module natif et C++.
Comme nous verrons beaucoup de bibliothèques C/C++ écrire pour les plates-formes mobiles, nous devons les implémenter dans notre application iOS ou React Native. C'est pourquoi je souhaite écrire un article sur la façon d'exporter une fonction de C++ vers React Native, ce qui est facile à comprendre et fait gagner du temps aux débutants. Je vais commencer avec une nouvelle application native réactive
1. Créez une nouvelle application native React, ouvrez votre terminal et exécutez
npx react-native init NativeModules2. Ouvrez Xcode et accédez à NativeModules/ios/NativeModule.xcworkspace
3. Travailler du côté C++
Créez un nouveau fichier C++ et nommez-leCpp_to_RN.cpp
Lorsque nous créons un nouveau fichier C++, Xcode créera un fichier d'en-tête Cpp_to_RN.hpp pour nous
Tout d'abord, ouvrez le fichier " Cpp_to_RN.hpp" et créez une classe qui inclut une fonction sans le corps.
#ifndef Cpp_to_RN_hpp
#define Cpp_to_RN_hpp#include <stdio.h>
#include <string>class Cpp_to_RN {
public:
std::string sayHello();
};#endif /* Cpp_to_RN_hpp */
Ouvrez ensuite le Cpp_to_RN.cppfichier et écrivez une fonction simple " sayHello()"
#include "Cpp_to_RN.hpp"
std::string Cpp_to_RN::sayHello(){
return "Hello from CPP";
}
4. Travail sur l'encapsulation du fichier C++.
Pour envelopper les fichiers C++ et les exporter vers le côté IOS (swift)
un. Créez un fichier Objective C et nommez-leCpp_to_RN.m
Renommez le Cpp_to_RN.m en Cpp_to_RN.mm
b. Ouvrez le WrapCpp_to_RN.mm fichier et écrivez le contenu du corps qui encapsulera la fonction sayHelloà partir du fichier C++.
#import <Foundation/Foundation.h>
#import "WrapCpp_to_RN.h"
#import "Cpp_to_RN.hpp"@implementation WrapCpp_to_RN- (NSString *) sayHello {
Cpp_to_RN fromCPP;
std::string helloWorldMessage = fromCPP.sayHello();
return [NSString
stringWithCString:helloWorldMessage.c_str()
encoding:NSUTF8StringEncoding];
}
@end
c. Créez un fichier d'en-tête et nommez-leWrapCpp_to_RN.h
Exporter la wrapSayHellofonction vers le fichier Swift
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@end
5. Travailler du côté iOS (Swift)
Pour exporter la fonction C++ vers React Native
un. Créez un fichier Swift et nommez-leSendCpp_to_RN.swift
Remarque : Xcode nous demandera de créer un NativeModules-Bridging-Header.hfichier pour nous.
Créez une classe SendCpp_to_RNet déclarez-la commeNSObject
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@endÉcrire une fonction requiresMainQueueSetup()pour empêcher l'avertissement lorsque nous exécutons l'application
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@endEcrire une fonction pour envelopper le WrapCpp_to_RN()fromWrapCpp_to_RN.mm
import Foundation@objc(SendCpp_to_RN)
class SendCpp_to_RN : NSObject {
@objc static func requiresMainQueueSetup() -> Bool {
return false
}
@objc func fromCpp(_ successCallback: RCTResponseSenderBlock) -> Void {
successCallback([NSNull(), WrapCpp_to_RN().wrapSayHello() as Any])
}}
b. Exporter une fonction wrap dans un fichier Swift vers React Native
Créez un fichier Objective C pour exporter la classe Swift et sa fonction à l'aide deCallback
#import <React/RCTBridgeModule.h>
#import <Foundation/Foundation.h>
#import "UIKit/UIKit.h"
@interface RCT_EXTERN_MODULE(SendCpp_to_RN, NSObject)RCT_EXTERN_METHOD(fromCpp:(RCTResponseSenderBlock)successCallback)@end
c. Connectez Swift à React Native, ouvrez le NativeModules-Bridging-Header.h fichier
#import <React/RCTBridgeModule.h>#import <React/RCTViewManager.h>#import "WrapCpp_to_RN.h"
6. Travailler du côté React Native
Appelez la classe Swift et ses fonctions
import React from 'react';
import {StyleSheet, Text, View, NativeModules, Button} from 'react-native';const App = () => {
const onPress = () => {
const {SendCpp_to_RN} = NativeModules;
SendCpp_to_RN.fromCpp((_err, res) => console.log(res));
};
return (
<View style={styles.container}>
<Text> Practice !</Text>
<Button title="C++ to React Native" color="#841584" onPress={onPress} />
</View>
);
};
const styles = StyleSheet.create({
container: {
flex: 1,
justifyContent: 'center',
alignItems: 'center',
},
});
export default App;
Et nous avons terminé, il suffit de lancer l'application
react-native run-iosOu cliquez simplement sur le bouton "exécuter" sur Xcode et voyez ce que nous avons fait.
J'espère que mon article vous sera utile, merci pour le temps de lecture.
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関数をC++からReactNativeにエクスポートする方法
今日も、ネイティブモジュールとC++での経験を共有し続けています。
多くのC/C ++ライブラリがモバイルプラットフォーム用に作成されているので、それらをiOSまたはReactNativeアプリケーションに実装する必要があります。そのため、関数をC++からReactNativeにエクスポートする方法についての記事を書きたいと思います。これは、理解しやすく、初心者の時間を節約できます。新しいreactネイティブアプリケーションから始めます
1.新しいreactネイティブアプリを作成し、ターミナルを開いて実行します
npx react-native init NativeModules2. Xcodeを開き、NativeModules / ios/NativeModule.xcworkspaceに移動します
3.C++側での作業
新しいC++ファイルを作成し、名前を付けますCpp_to_RN.cpp
新しいC++ファイルを作成すると、XcodeはヘッダーファイルCpp_to_RN.hpp を作成します
まず、「Cpp_to_RN.hpp」ファイルを開き、本体のない関数を含むクラスを作成します。
#ifndef Cpp_to_RN_hpp
#define Cpp_to_RN_hpp#include <stdio.h>
#include <string>class Cpp_to_RN {
public:
std::string sayHello();
};#endif /* Cpp_to_RN_hpp */
次に、ファイルを開いてCpp_to_RN.cpp、単純な関数「sayHello()」を記述します。
#include "Cpp_to_RN.hpp"
std::string Cpp_to_RN::sayHello(){
return "Hello from CPP";
}
4.C++ファイルのラッピングに取り組んでいます。
C ++ファイルをラップしてIOS(swift)側にエクスポートするには
a。ObjectiveCファイルを作成して名前を付けますCpp_to_RN.m
名前をに変更Cpp_to_RN.m します Cpp_to_RN.mm
b。ファイルを開き、C++ファイルからWrapCpp_to_RN.mm 関数をラップする本文のコンテンツを記述します。sayHello
#import <Foundation/Foundation.h>
#import "WrapCpp_to_RN.h"
#import "Cpp_to_RN.hpp"@implementation WrapCpp_to_RN- (NSString *) sayHello {
Cpp_to_RN fromCPP;
std::string helloWorldMessage = fromCPP.sayHello();
return [NSString
stringWithCString:helloWorldMessage.c_str()
encoding:NSUTF8StringEncoding];
}
@end
c。ヘッダーファイルを作成し、名前を付けますWrapCpp_to_RN.h
wrapSayHello関数をSwiftファイルにエクスポートします
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@end
5. iOS(Swift)側での作業
C++関数をReactNativeにエクスポートするには
a。Swiftファイルを作成し、名前を付けますSendCpp_to_RN.swift
注:Xcodeは、NativeModules-Bridging-Header.hファイルを作成するように要求します。
クラスSendCpp_to_RNを作成し、次のように宣言しますNSObject
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@endrequiresMainQueueSetup()アプリケーション実行時の警告を防ぐ関数を作成する
#import <Foundation/Foundation.h>
@interface WrapCpp_to_RN : NSObject
- (NSString *) wrapSayHello;
@endWrapCpp_to_RN()fromをラップする関数を記述しますWrapCpp_to_RN.mm
import Foundation@objc(SendCpp_to_RN)
class SendCpp_to_RN : NSObject {
@objc static func requiresMainQueueSetup() -> Bool {
return false
}
@objc func fromCpp(_ successCallback: RCTResponseSenderBlock) -> Void {
successCallback([NSNull(), WrapCpp_to_RN().wrapSayHello() as Any])
}}
b。Swiftファイルのラップ関数をReactNativeにエクスポートします
を使用してSwiftクラスとその関数をエクスポートするObjectiveCファイルを作成しますCallback
#import <React/RCTBridgeModule.h>
#import <Foundation/Foundation.h>
#import "UIKit/UIKit.h"
@interface RCT_EXTERN_MODULE(SendCpp_to_RN, NSObject)RCT_EXTERN_METHOD(fromCpp:(RCTResponseSenderBlock)successCallback)@end
c。SwiftをReactNativeに接続し、NativeModules-Bridging-Header.h ファイルを開きます
#import <React/RCTBridgeModule.h>#import <React/RCTViewManager.h>#import "WrapCpp_to_RN.h"
6.ReactNative側での作業
Swiftクラスとその関数を呼び出す
import React from 'react';
import {StyleSheet, Text, View, NativeModules, Button} from 'react-native';const App = () => {
const onPress = () => {
const {SendCpp_to_RN} = NativeModules;
SendCpp_to_RN.fromCpp((_err, res) => console.log(res));
};
return (
<View style={styles.container}>
<Text> Practice !</Text>
<Button title="C++ to React Native" color="#841584" onPress={onPress} />
</View>
);
};
const styles = StyleSheet.create({
container: {
flex: 1,
justifyContent: 'center',
alignItems: 'center',
},
});
export default App;
これで完了です。アプリケーションを実行するだけです。
react-native run-iosまたは、Xcodeの「実行」ボタンをクリックして、実行内容を確認してください。
私の記事がお役に立てば幸いです。お読みいただきありがとうございます。