do i need to install alamofire in code if share the code to other system

I have installed alamofire using PODS on my macbook in my current project. Now if i share same project to some other person, do he/she also need to install alamofire to run the project ?

I have installed alamofire using PODS on my macbook in my current project. Now if i share same project to some other person, do he/she also need to install alamofire to run the project ?

Thanks

iOS App Development: How Apple's iOS 13 & Swift 5 Will Change App Development Industry

iOS App Development: How Apple's iOS 13 & Swift 5 Will Change App Development Industry

Want to know how Apple's iOS 13 & Swift 5 will change the iOS app development industry? Refer to this blog that contains in-detail information on it.

In June this year, Apple announced the release of iOS 13 during the annual WWDC event along with a bunch of other releases and launches. The new iOS version- iOS 13, was discussed in detail, and the developer community was given reasons to be excited about the new release.

Dark Mode was one of the most awaited updates that the iPhone users were deprived of. Know more about how to enable dark mode for your iOS application.

Sign in with Apple and updates in background tasks kept the developers counting days. As with every new Apple product, whether it is software or hardware, we all look forward to what’s new in it. The release of iOS13 redefines the way mobile app development occurred today. In fact, the powerful combination of Apple’s iOS 13 and Swift 5 will be akin to Batman and Robin when developing mobile apps for the millennials in a demanding market.

If you have been viewing this space, and looking for an answer to the question – how iOS 13 will change the app development space, then here are some clues.

How iOS 13 and Swift 5 Will Change iOS App Development

  1. Augmented Reality Apps Development with ARKit 2
    Augmented Reality is redefining customer experiences. Remember how Pokemon Go became a rage a few years back? Almost everyone had it installed on their phones. They played it day and night, on the streets, competing to catch virtual Pokemon. In fact, it is the same with all the AR-based app solutions. Apple is making progress with its AR technology and has redefined the ARkit to match the needs of the future.

While the ARKit is getting a refined look, Apple has also announced a new AR technology known as Realitykit which will help the creators of AR apps render photorealistic digital material along with incorporating the right type of animation for the same. The best part of the new AR technology is that it works with Swift 5, which means you can develop AR apps for Mac, iPhone, and iPad with ease.

The company had earlier released headsets for AR app solutions, but the headsets were not connected with iPhone or iPad, however, they were linked to the camera app alone. Things have gradually changed in this department. The announcement of this new technology comes at a time when AR has not only picked up but has also been commanding several applications. This new development technique will enhance how mobile apps were creating experiences until now.

  1. Car Play Apps Development
    This combination will give your car the much-needed upgrade. The new version of CarPlay released with iOS 13 will definitely redefine your in-car experience.

The dashboard is the biggest overhaul this feature has received where you can easily view the current music being played by the stereo, the map showing the route to the destination as well as insights into your destination, all in one place. In fact, the dark/light theme is also available for the car plays dashboard. Basically, the new car play ends an era of switching between two screens and helps enjoy the drive.

The maps have also been revamped for the new version of iOS. You also get a better Siri interface with Carplay, which makes your connection with Siri interesting. Carplay also integrates the calendar app thus, allowing you a quick glance into your day’s appointment. The best part of the upgrade is that your car play screen is independent of the phone screen, which means you can read two different things at the same time.

  1. Machine Learning with Core ML
    The advancements made with CoreML are worth knowing, as it will improve the way you integrate machine learning into your iOS-based mobile apps. The new Core ML 3 will expand the horizons of development and will make it easy for you as a developer to introduce machine learning to the apps.

Apart from ease of development, the next big thing introduced in this version of CoreML is the on-device training. The server side training was done using frameworks such as PyTorch and then these applications were converted to Core ML for better predictions. CoreML3 is the new version that supports both inference and on-device training.

  1. Cloud-Based Apps
    You cannot be slow and demand to become successful at the same time. You ought to accelerate not only your app development process but also how your apps work irrespective of the environment. The cloud-based app solutions are the new feature devised by iOS13 that will work in favour of app developers.

From operations to storage flexibility, the cloud proves to be a brilliant way of getting apps to download faster and improve user experience. iOS13’s introduction of cloud-based apps will not only make app development economical by offering flexible pricing but also improve the functionality of the app solutions.

The new cloud-based app solutions offer an exceptional dashboard thus making data accessible, and pave ways for easy monitoring of the app solutions.

  1. watchOS 6
    With the release of iOS13, the watchOS6 will also be released. The new watchOS will come with shortcuts, custom controls, an upgraded Siri and an audio app. The new OS is also set to launch new health features for the fitness apps that you may develop.

The app store has already defined app solutions that can be used with watchOS6. One is the cycle tracking app which helps women track their menstrual cycles while the other app solution is the noise app which measures the level of noise in your environment.

  1. Increased security
    App developers are always concerned about security within the apps. There is always a fear of user accounts getting hacked or their data being stolen. They want to ensure that there is enough security so that the users feel safe when connecting with the apps. The new version of iOS has strengthened app security. The company will be using App Transport Security to incorporate new security standards whenever they are releasing a new app. The app developers will need to ensure that there is a single channel for all interactions with the mobile app.

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  • Loops in Swift 4


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Creating an iOS app with user presence using Node.js and Swift

Creating an iOS app with user presence using Node.js and Swift

In this tutorial, we are going to see how you can add user presence to an iOS application using Pusher Channels, Node.js, and Swift.

We will create a sample chat application to demonstrate this feature. However, because we are focusing on just user presence, we will not implement the actual chat feature.

If you are building an application that has a user base, you might need to show your users when their friends are currently online. This comes in handy especially in messenger applications where the current user would like to know which of their friends are available for instant messaging.

Here is a screen recording on how we want the application to work:

If you want a tutorial on how to create a messenger application on iOS, check out this article.


Prerequisites

To follow along you need the following requirements:

  1. Xcode installed on your machine. Download here.
  2. Knowledge of the Swift programming language.
  3. Knowledge of the Xcode IDE.
  4. A Pusher Channels app. Create one here.
  5. Cocoapods installed on your machine. Installation guide.
  6. Node.js and npm installed on your machine. Installation guide.
  7. Basic knowledge of JavaScript and Node.js.

Let’s get started.


Creating the backend of the application

Before creating the iOS application, let’s create the backend application in Node.js. This application will have the necessary endpoints the application will need to function properly. To get started, create a new directory for the project.


Installing the dependencies

In the root of the project, create a new package.json file and paste the following contents into it:

    {
      "name": "presensesample",
      "version": "1.0.0",
      "main": "index.js",
      "dependencies": {
        "body-parser": "^1.18.3",
        "express": "^4.16.4",
        "pusher": "^2.1.3"
      }
    }

Above, we have defined some npm dependencies that the backend application will need to function. Amongst the dependencies, we can see the pusher library. This is the Pusher JavaScript server SDK.

Next, open your terminal application and cd to the root of the project you just created and run the following command:

    $ npm install

This command will install all the dependencies we defined above in the package.json file.


Creating the main application

Next, create a new file called index.js and paste the following code into the file:

    // File: ./index.js
const express = require('express');
const bodyParser = require('body-parser');
const Pusher = require('pusher');
const app = express();

let users = {};
let currentUser = {};

let pusher = new Pusher({
  appId: 'PUSHER_APP_ID',
  key: 'PUSHER_APP_KEY',
  secret: 'PUSHER_APP_SECRET',
  cluster: 'PUSHER_APP_CLUSTER'
});

app.use(bodyParser.json());
app.use(bodyParser.urlencoded({ extended: false }));

// TODO: Add routes here

app.listen(process.env.PORT || 5000);

In the code above, we imported the libraries we need for the backend application. We then instantiated two new variables: users and currentUser. We will be using these variables as a temporary in-memory store for the data since we are not using a database.

Next, we instantiated the Pusher library using the credentials for our application. We will be using this instance to communicate with the Pusher API. Next, we add the listen method which instructs the Express application to start the application on port 5000.

Next, let’s add some routes to the application. In the code above, we added a comment to signify where we will be adding the route definitions. Replace the comment with the following code:

    // File: ./index.js

// [...]

app.post('/users', (req, res) => {
  const name = req.body.name;
  const matchedUsers = Object.keys(users).filter(id => users[id].name === name);

  if (matchedUsers.length === 0) {
    const id = generate_random_id();
    users[id] = currentUser = { id, name };
  } else {
    currentUser = users[matchedUsers[0]];
  }

  res.json({ currentUser, users });
});

// [...]

Above, we have the first route. The route is a POST route that creates a new user. It first checks the users object to see if a user already exists with the specified name. If a user does not exist, it generates a new user ID using the generate_random_id method (we will create this later) and adds it to the users object. If a user exists, it skips all of that logic.

Regardless of the outcome of the user check, it sets the currentUser as the user that was created or matched and then returns the currentUser and users object as a response.

Next, let’s define the second route. Because we are using presence channels, and presence channels are private channels, we need an endpoint that will authenticate the current user. Below the route above, add the following code:

    // File: ./index.js

// [...]

app.post('/pusher/auth/presence', (req, res) => {
  let socketId = req.body.socket_id;
  let channel = req.body.channel_name;

  let presenceData = {
    user_id: currentUser.id,
    user_info: { name: currentUser.name }
  };

  let auth = pusher.authenticate(socketId, channel, presenceData);

  res.send(auth);
});

// [...]

Above, we have the Pusher authentication route. This route gets the expected socket_id and channel_name and uses that to generate an authentication token. We also supply a presenceData object that contains all the information about the user we are authenticating. We then return the token as a response to the client.

Finally, in the first route, we referenced a function generate_random_id. Below the route we just defined, paste the following code:

    // File: ./index.js

// [...]

function generate_random_id() {
  let s4 = () => (((1 + Math.random()) * 0x10000) | 0).toString(16).substring(1);
  return s4() + s4() + '-' + s4() + '-' + s4() + '-' + s4() + s4() + s4();
}

// [...] 

The function above just generates a random ID that we can then use as the user ID when creating new users.

Let’s add a final default route. This will catch visits to the backend home. In the same file, add the following:

    // [...]

app.get('/', (req, res) => res.send('It works!'));

// [...]

With this, we are done with the Node.js backend. You can run your application using the command below:

    $ node index.js

Your app will be available here: http://localhost:5000.


Building the iOS application

Launch Xcode and create a new sample Single View App project. We will call ours presensesample.

When you are done creating the application, close Xcode. Open your terminal application and cd to the root directory of the iOS application and run the following command:

    $ pod init

This will create a new Podfile file in the root directory of your application. Open the file and replace the contents with the following:

    # File: ./Podfile
target 'presensesample' do
platform :ios, '12.0'

  use_frameworks!

  pod 'Alamofire', '~> 4.7.3'
  pod 'PusherSwift', '~> 5.0'
  pod 'NotificationBannerSwift', '~> 1.7.3'
end

Above, we have defined the application’s dependencies. To install the dependencies, run the following command:

    $ pod install

The command above will install all the dependencies in the Podfile and also create a new .xcworkspace file in the root of the project. Open this file in Xcode to launch the project and not the .xcodeproj file.


Creating the scenes

The first thing we will do is create the storyboard scenes we need for the application to work. We want the storyboard to look like this:

Open the main storyboard file and delete all the scenes in the file so it is empty. Next, add a view controller to the scene.

TIP: You can use the command + shift + L shortcut to bring the objects library.

With the view controller selected, click on Editor > Embed In > Navigation Controller. This will embed the current view controller in a navigation controller. Next, with the navigation view controller selected, open the attributes inspector and select the Is Initial View Controller option to set the navigation view controller as the entry point for the storyboard.

Next, design the view controller as seen in the screenshot below. Later on in the article, we will be connecting the text field and button to the code using an @IBOutlet and an @IBAction.

Next, add the tab bar controller and connect it to the view controller using a manual segue. Since tab bar controllers come with two regular view controllers, delete them and add two table view controllers instead as seen below:

When you are done creating the scenes, let’s start adding the necessary code.


Adding code to the created scenes

Create a new controller class called LoginViewController and set it as the custom class for the first view controller attached to the navigation controller. Paste the following code into the file:

    // File: ./presensesample/LoginViewController.swift
import UIKit
import Alamofire
import PusherSwift
import NotificationBannerSwift

class LoginViewController: UIViewController {
    var user: User? = nil
    var users: [User] = []

    @IBOutlet weak var nameTextField: UITextField!

    override func viewWillAppear(_ animated: Bool) {
        super.viewWillAppear(animated)

        user = nil
        users = []

        navigationController?.isNavigationBarHidden = true
    }

    @IBAction func startChattingButtonPressed(_ sender: Any) {
        if nameTextField.text?.isEmpty == false, let name = nameTextField.text {
            registerUser(["name": name.lowercased()]) { successful in
                guard successful else {
                    return StatusBarNotificationBanner(title: "Failed to login.", style: .danger).show()
                }

                self.performSegue(withIdentifier: "showmain", sender: self)
            }
        }
    }

    func registerUser(_ params: [String : String], handler: @escaping(Bool) -> Void) {
        let url = "http://127.0.0.1:5000/users"

        Alamofire.request(url, method: .post, parameters: params)
            .validate()
            .responseJSON { resp in
                if resp.result.isSuccess,
                    let data = resp.result.value as? [String: Any],
                    let user = data["currentUser"] as? [String: String],
                    let users = data["users"] as? [String: [String: String]],
                    let id = user["id"], let name = user["name"]
                {
                    for (uid, user) in users {
                        if let name = user["name"], id != uid {
                            self.users.append(User(id: uid, name: name))
                        }
                    }

                    self.user = User(id: id, name: name)
                    self.nameTextField.text = nil

                    return handler(true)
                }

                handler(false)
        }
    }

    override func prepare(for segue: UIStoryboardSegue, sender: Any?) {
        if let vc = segue.destination as? MainViewController {
            vc.viewControllers?.forEach {
                if let onlineVc = $0 as? OnlineTableViewController {
                    onlineVc.users = self.users
                    onlineVc.user = self.user
                }
            }
        }
    }
}

In the controller above, we have defined the users and user properties which will hold the available users and the current user when the user is logged in. We also have the nameTextField which is an @IBOutlet to the text field in the storyboard view controller, so make sure you connect the outlet if you hadn’t previously done so.

In the same controller, we have the startChattingButtonPressed method which is an @IBAction so make sure you connect it to the submit button in the storyboard view controller if you have not already done so. In this method, we call the registerUser method to register the user using the API. If the registration is successful, we direct the user to the showmain segue.

The segue between the login view controller and the tab bar controller should be set with an identifier of showmain.

In the registerUser method, we send the name to the API and receive a JSON response. We parse it to see if the registration was successful or not.

The final method in the class is the prepare method. This method is automatically called by iOS when a new segue is being loaded. We use this to preset some data to the view controller we are about to load.

Next, create a new file called MainViewController and set this as the custom class for the tab bar view controller. In the file, paste the following code:

    // File: ./presensesample/MainViewController.swift
import UIKit

class MainViewController: UITabBarController {

    override func viewDidLoad() {
        super.viewDidLoad()

        navigationItem.title = "Who's Online"
        navigationItem.hidesBackButton = true
        navigationController?.isNavigationBarHidden = false

        // Logout button
        navigationItem.rightBarButtonItem = UIBarButtonItem(
            title: "Logout",
            style: .plain,
            target: self,
            action: #selector(logoutButtonPressed)
        )
    }

    override func tabBar(_ tabBar: UITabBar, didSelect item: UITabBarItem) {
        navigationItem.title = item.title
    }

    @objc fileprivate func logoutButtonPressed() {
        viewControllers?.forEach {
            if let vc = $0 as? OnlineTableViewController {
                vc.users = []
                vc.pusher.disconnect()
            }
        }

        navigationController?.popViewController(animated: true)
    }
}

In the controller above, we have a few methods defined. The viewDidLoad method sets the title of the controller and other navigation controller specific things. We also define a Logout button in this method. The button will trigger the logoutButtonPressed method.

In the logoutButtonPressed method, we try to log the user out by resetting the users property in the view controller and also we disconnect the user from the Pusher connection.

Next, create a new controller class named ChatTableViewController. Set this class as the custom class for one of the tab bar controllers child controllers. Paste the following code into the file:

    // File: ./presensesample/ChatTableViewController.swift
import UIKit

class ChatTableViewController: UITableViewController {
    override func viewDidLoad() {
        super.viewDidLoad()
    }

    override func numberOfSections(in tableView: UITableView) -> Int {
        return 0
    }

    override func tableView(_ tableView: UITableView, numberOfRowsInSection section: Int) -> Int {
        return 0
    }
}

The controller above is just a base controller and we do not intend to add any chat logic to this controller.

Create a new controller class called OnlineTableViewController. Set this controller as the custom class for the second tab bar controller child controller. Paste the following code to the controller class:

    // File: ./presensesample/OnlineTableViewController.swift
import UIKit
import PusherSwift

struct User {
    let id: String
    var name: String
    var online: Bool = false

    init(id: String, name: String, online: Bool? = false) {
        self.id = id
        self.name = name
        self.online = online!
    }
}

class OnlineTableViewController: UITableViewController {

    var pusher: Pusher!
    var user: User? = nil
    var users: [User] = []

    override func numberOfSections(in tableView: UITableView) -> Int {
        return 1
    }

    override func tableView(_ tableView: UITableView, numberOfRowsInSection section: Int) -> Int {
        return users.count
    }

    override func tableView(_ tableView: UITableView, cellForRowAt indexPath: IndexPath) -> UITableViewCell {
        let cell = tableView.dequeueReusableCell(withIdentifier: "onlineuser", for: indexPath)
        let user = users[indexPath.row]

        cell.textLabel?.text = "\(user.name) \(user.online ? "[Online]" : "")"

        return cell
    }
}

In the code above, we first defined a User struct. We will use this to represent the user resource. We have already referenced this struct in previous controllers we created earlier.

Next, we defined the OnlineTableViewController class which is extends the UITableViewController class. In this class, we override the usual table view controller methods to provide the table with data.

You have to set the cell reuse identifier of this table to onlineuser in the storyboard.

Above we also defined some properties:

  • pusher - this will hold the Pusher SDK instance that we will use to subscribe to Pusher Channels.
  • users - this will hold an array of User structs.
  • user - this is the user struct of the current user.

Next, in the same class, add the following method:

    // File: ./presensesample/OnlineTableViewController.swift

// [...]

override func viewDidLoad() {
    super.viewDidLoad()

    tableView.allowsSelection = false

    // Create the Pusher instance...
    pusher = Pusher(
        key: "PUSHER_APP_KEY",
        options: PusherClientOptions(
            authMethod: .endpoint(authEndpoint: "http://127.0.0.1:5000/pusher/auth/presence"),
            host: .cluster("PUSHER_APP_CLUSTER")
        )
    )

    // Subscribe to a presence channel...
    let channel = pusher.subscribeToPresenceChannel(
        channelName: "presence-chat",
        onMemberAdded: { member in
            if let info = member.userInfo as? [String: String], let name = info["name"] {
                if let index = self.users.firstIndex(where: { $0.id == member.userId }) {
                    let userModel = self.users[index]
                    self.users[index] = User(id: userModel.id, name: userModel.name, online: true)
                } else {
                    self.users.append(User(id: member.userId, name: name, online: true))
                }

                self.tableView.reloadData()
            }
        },
        onMemberRemoved: { member in
            if let index = self.users.firstIndex(where: { $0.id == member.userId }) {
                let userModel = self.users[index]
                self.users[index] = User(id: userModel.id, name: userModel.name, online: false)
                self.tableView.reloadData()
            }
        }
    )

    // Bind to the subscription succeeded event...
    channel.bind(eventName: "pusher:subscription_succeeded") { data in
        guard let deets = data as? [String: AnyObject],
            let presence = deets["presence"] as? [String: AnyObject],
            let ids = presence["ids"] as? NSArray else { return }

        for userid in ids {
            guard let uid = userid as? String else { return }

            if let index = self.users.firstIndex(where: { $0.id == uid }) {
                let userModel = self.users[index]
                self.users[index] = User(id: uid, name: userModel.name, online: true)
            }
        }

        self.tableView.reloadData()
    }

    // Connect to Pusher
    pusher.connect()
}

// [...]

In the viewDidLoad method above, we are doing several things. First, we instantiate the Pusher instance. In the options, we specify the authorize endpoint. We use the same URL as the backend we created earlier.

The next thing we do is subscribe to a presence channel called presence-chat. When working with presence channels, the channel name must be prefixed with presence-. The subscribeToPresenceChannel method has two callbacks that we can add logic to:

  • onMemberAdded - this event is called when a new user joins the presence-chat channel. In this callback, we check for the user that was added and mark them as online in the users array.
  • onMemberRemoved - this event is called when a user leaves the presence-chat channel. In this callback, we check for the user that left the channel and mark them as offline.

Next, we bind to the pusher:subscription_succeeded event. This event is called when a user successfully subscribes to updates on a channel. The callback on this event returns all the currently subscribed users. In the callback, we use this list of subscribed users to mark them online in the application.

Finally, we use the connect method on the pusher instance to connect to Pusher.


Allowing local connections on the iOS app

One last thing we need to do before we are done with the iOS application is allowing the application load data from arbitrary URLs. By default, iOS does not allow this, and it should not. However, since we are going to be testing locally, we need this turned on temporarily. Open the info.plist file and update it as seen below:

Now, our app is ready. You can run the application and you should see the online presence status of other users when they log in.


Conclusion

In this tutorial, we learned how to use presence channels in your iOS application using Pusher Channels.

The source code for the application created in this tutorial is available on GitHub.


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Originally published by Neo Ighodaro at https://pusher.com/