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How to Build Android Apps with Kotlin
How to Build Android Apps with Kotlin

How to Build Android Apps with Kotlin: A hands-on guide to developing, testing, and publishing your first apps with Android

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Profile Icon Alex Forrester Profile Icon Tigcal Profile Icon Alexandru Dumbravan Profile Icon Eran Boudjnah
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€28.99 €41.99
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eBook Feb 2021 794 pages 1st Edition
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Arrow left icon
Profile Icon Alex Forrester Profile Icon Tigcal Profile Icon Alexandru Dumbravan Profile Icon Eran Boudjnah
Arrow right icon
€28.99 €41.99
Full star icon Full star icon Full star icon Full star icon Half star icon 4.6 (32 Ratings)
eBook Feb 2021 794 pages 1st Edition
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€28.99 €41.99
Paperback
€52.99
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Renews at €18.99p/m
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How to Build Android Apps with Kotlin

2. Building User Screen Flows

Overview

This chapter covers the Android activity lifecycle and explains how the Android system interacts with your app. By the end of this chapter, you'll have learned how to build user journeys through different screens. You'll also be able to use activity tasks and launch modes, save and restore the state of your activity, use logs to report on your application, and share data between screens.

Introduction

The previous chapter introduced you to the core elements of Android development, from configuring your app using the AndroidManifest.xml file, working with simple activities, and the Android resource structure, to building an app with build.gradle and running an app on a virtual device. In this chapter, you'll go further and learn how the Android system interacts with your app through the Android lifecycle, how you are notified of changes to your app's state, and how you can use the Android lifecycle to respond to these changes. You'll then progress to learning how to create user journeys through your app and how to share data between screens. You'll be introduced to different techniques to achieve these goals so that you'll be able to use them in your own apps and recognize them when you see them used in other apps.

The Activity Lifecycle

In the previous chapter, we used the onCreate(saveInstanceState: Bundle?) method to display a layout in the UI of our screen. Now, we'll explore in more detail how the Android system interacts with your application to make this happen. As soon as an Activity is launched, it goes through a series of steps to take it through initialization and preparing it to be displayed to being partially displayed, and then fully displayed. There are also steps that correspond with your application being hidden, backgrounded, and then destroyed. This process is called the Activity lifecycle. For every one of these steps, there is a callback that your Activity can use to perform actions such as creating and changing the display and saving data when your app has been put into the background and then restoring that data after your app comes back into the foreground. You can consider these callbacks as hooks into how the system interacts with your activity/screen.

Every Activity has a parent Activity class that it extends. These callbacks are made on your Activity's parent, and it's up to you to decide whether you need to implement them in your own Activity to take any corresponding action. Every one of these callback functions has the override keyword. The override keyword in Kotlin means that either this function is providing an implementation of an interface or an abstract method, or, in the case of your Activity here, which is a subclass, it is providing the implementation that will override its parent.

Now that you know how the Activity lifecycle works in general, let's go into more detail about the principal callbacks you will work with in order, from creating an Activity to the Activity being destroyed:

  • override fun onCreate(savedInstanceState: Bundle?): This is the callback that you will use the most for activities that draw a full-sized screen. It's here where you prepare your Activity layout to be displayed. At this stage, after the method completes, it is still not displayed to the user, although it will appear that way if you don't implement any other callbacks. You usually set up the UI of your Activity here by calling the setContentView method setContentView(R.layout.activity_main) and carry out any initialization that is required. This method is only called once in its lifecycle unless the Activity is created again. This happens by default for some actions (such as rotating the phone from portrait to landscape orientation, for example). The savedInstanceState parameter of the Bundle? type (? means the type can be null) in its simplest form is a map of key-value pairs optimized to save and restore data. It will be null if this is the first time that the Activity has been run after the app has started or if the Activity is being created for the first time or recreated without any states being saved. It may contain a saved state if it has been saved in the onSaveInstanceState(outState: Bundle?) callback prior to the Activity being recreated.
  • override fun onRestart(): When the Activity restarts, this is called immediately before onStart(). It is important to be clear about the difference between restarting an Activity and recreating an activity. When the Activity is backgrounded by pressing the home button—for instance, when it comes back into the foreground again—onRestart() will be called. Recreating an Activity is what happens when a configuration change happens, such as the device being rotated. The Activity is finished and then created again.
  • override fun onStart(): This is the callback made when the Activity first comes into view. Also, after the app is backgrounded by pressing either the back, home, or the recents/overview hardware buttons, on selecting the app again from the recents/overview menu or the launcher, this function will be run. It is the first of the visible lifecycle methods.
  • override fun onRestoreInstanceState(savedInstanceState: Bundle?): If the state has been saved using onSaveInstanceState(outState: Bundle?) this is the method which the system calls after onStart() where you can retrieve the Bundle state instead of restoring the state during onCreate(savedInstanceState: Bundle?)
  • override fun onResume(): This callback is run as the final stage of creating an Activity for the first time, and also when the app has been backgrounded and then is brought into the foreground. Upon the completion of this callback, the screen/activity is ready to be used, receive user events, and be responsive.
  • override fun onSaveInstanceState(outState: Bundle?): If you want to save the state of the activity, this function can do so. You add key-value pairs using one of the convenience functions depending on the data type. The data will then be available if your Activity is recreated in onCreate(saveInstanceState: Bundle?) and onRestoreInstanceState(savedInstanceState: Bundle?).
  • override fun onPause(): This function is called when the Activity starts to be backgrounded or another dialog or Activity comes into the foreground.
  • override fun onStop(): This function is called when the Activity is hidden, either because it is being backgrounded or another Activity is being launched on top of it.
  • override fun onDestroy(): This is called by the system to kill the Activity when system resources are low, when finish() is called explicitly on the Activity, or, more commonly, when the Activity is killed by the user closing the app from the recents/overview button.

Now that you understand what these common lifecycle callbacks do, let's implement them to see when they are called.

Exercise 2.01: Logging the Activity Callbacks

Let's create an application called Activity Callbacks with an empty Activity, as you did previously in Chapter 1, Creating Your First App. The aim of this exercise is to log the Activity callbacks and the order that they occur for common operations:

  1. After the application has been created, MainActivity will appear as follows:
    package com.example.activitycallbacks
    import androidx.appcompat.app.AppCompatActivity
    import android.os.Bundle
    class MainActivity : AppCompatActivity() {
        override fun onCreate(savedInstanceState: Bundle?) {
            super.onCreate(savedInstanceState)
            setContentView(R.layout.activity_main)
        }
    }

    In order to verify the order of the callbacks, let's add a log statement at the end of each callback. To prepare the Activity for logging, import the Android log package by adding import android.util.Log to the import statements. Then, add a constant to the class to identify your Activity. Constants in Kotlin are identified by the const keyword and can be declared at the top level (outside the class) or in an object within the class. Top level constants are generally used if they are required to be public. For private constants, Kotlin provides a convenient way to add static functionality to classes by declaring a companion object. Add the following at the bottom of the class below onCreate(savedInstanceState: Bundle?):

    companion object {
        private const val TAG = "MainActivity"
    }

    Then add a log statement at the end of onCreate(savedInstanceState: Bundle?):

    Log.d(TAG, "onCreate")

    Our Activity should now have the following code:

    package com.example.activitycallbacks
    import android.os.Bundle
    import android.util.Log
    import androidx.appcompat.app.AppCompatActivity
    class MainActivity : AppCompatActivity() {
        override fun onCreate(savedInstanceState: Bundle?) {
            super.onCreate(savedInstanceState)
            setContentView(R.layout.activity_main)
            Log.d(TAG, "onCreate")
        }
        companion object {
            private const val TAG = "MainActivity"
        }
    }

    d in the preceding log statement refers to debug. There are six different log levels that can be used to output message information from the least to most important - v for verbose, d for debug, i for info, w for warn, e for error, and wtf for what a terrible failure. (This last log level highlights an exception that should never occur.)

            Log.v(TAG, "verbose message")
            Log.d(TAG, "debug message")
            Log.i(TAG, "info message")
            Log.w(TAG, "warning message")
            Log.e(TAG, "error message")
            Log.wtf(TAG, "what a terrible failure message")
  2. Now, let's see how the logs are displayed in Android Studio. Open the Logcat window. It can be accessed by clicking on the Logcat tab at the bottom of the screen and also from the toolbar by going to View | Tool WindowsLogcat.
  3. Run the app on the virtual device and examine the Logcat window output. You should see the log statement you have added formatted like the following line in Figure 2.1:
    Figure 2.1: Log output in Logcat

    Figure 2.1: Log output in Logcat

  4. Log statements can be quite difficult to interpret at first glance, so let's break down the following statement into its separate parts:
    2020-03-03  20:36:12.308  21415-21415/com.example.activitycallbacks D/MainActivity: onCreate

    Let's examine the elements of the log statement in detail:

    Figure 2.2: Table explaining a log statement

    Figure 2.2: Table explaining a log statement

    You can examine the output of the different log levels by changing the log filter from Debug to other options in the drop-down menu. If you select Verbose, as the name implies, you will see a lot of output.

  5. What's great about the TAG option of the log statement is that it enables you to filter the log statements that are reported in the Logcat window of Android Studio by typing in the text of the tag, as shown in Figure 2.3:
    Figure 2.3: Filtering log statements by the TAG name

    Figure 2.3: Filtering log statements by the TAG name

    So, if you are debugging an issue in your Activity, you can type in the TAG name and add logs to your Activity to see the sequence of log statements. This is what you are going to do next by implementing the principal Activity callbacks and adding a log statement to each one to see when they are run.

  6. Place your cursor on a new line after the closing brace of the onCreate(savedInstanceState: Bundle?) function and then add the onRestart() callback with a log statement. Make sure you call through to super.onRestart() so that the existing functionality of the Activity callback works as expected:
    override fun onRestart() {
        super.onRestart()
        Log.d(TAG, "onRestart")
    }
  7. You will find that once you start typing the name of the function, Android Studio's autocomplete feature will suggest options for the name of the function you want to override.

    Note

    In Android Studio you can start typing the name of a function, and autocomplete options will pop up with suggestions for functions to override. Alternatively, if you go to the top menu and then Code | Generate | Override methods, you can select the methods to override.

    Do this for all of the following callback functions:

    onCreate(savedInstanceState: Bundle?)
    onRestart()
    onStart()
    onRestoreInstanceState(savedInstanceState: Bundle?)
    onResume()
    onPause()
    onStop()
    onSaveInstanceStateoutState: Bundle?)
    onDestroy()
  8. Your Activity should now have the following code (truncated here). You can see the full code on GitHub at http://packt.live/38W7jU5

    The completed activity will now override the callbacks with your implementation, which adds a log message:

    package com.example.activitycallbacks
    import android.os.Bundle
    import android.util.Log
    import androidx.appcompat.app.AppCompatActivity
    class MainActivity : AppCompatActivity() {
        override fun onCreate(savedInstanceState: Bundle?) {
            super.onCreate(savedInstanceState)
            setContentView(R.layout.activity_main)
            Log.d(TAG, "onCreate")
        }
        override fun onRestart() {
            super.onRestart()
            Log.d(TAG, "onRestart")
        }
        //Remaining callbacks follow: see github link above
        companion object {
            private const val TAG = "MainActivity"
        }
    }
  9. Run the app, and then once it has loaded, as in Figure 2.4, look at the Logcat output; you should see the following log statements (this is a shortened version):
    D/MainActivity: onCreate
    D/MainActivity: onStart
    D/MainActivity: onResume

    The Activity has been created, started, and then prepared for the user to interact with:

    Figure 2.4: The app loaded and displaying MainActivity

    Figure 2.4: The app loaded and displaying MainActivity

  10. Press the round home button in the center of the bottom navigation controls and background the app. You should now see the following Logcat output:
    D/MainActivity: onPause
    D/MainActivity: onStop
    D/MainActivity: onSaveInstanceState

    For apps which target below Android Pie (API 28) then onSaveInstanceState(outState: Bundle?) may also be called before onPause() or onStop().

  11. Now, bring the app back into the foreground by pressing the recents/overview button (usually a square or three vertical lines) on the right and selecting the app, or by going to the launcher and opening the app. You should now see the following:
    D/MainActivity: onRestart
    D/MainActivity: onStart
    D/MainActivity: onResume

    The Activity has been restarted. You might have noticed that the onRestoreInstanceState(savedInstanceState: Bundle) function was not called. This is because the Activity was not destroyed and recreated.

  12. Press the triangle back button on the left of the bottom navigation controls (it may also be on the right) and you will see the Activity being destroyed. You can also do this by pressing the recents/overview button and then swiping the app upward to kill the activity. This is the output:
    D/MainActivity: onPause
    D/MainActivity: onStop
    D/MainActivity: onDestroy
  13. Launch your app again and then rotate the phone. You might find that the phone does not rotate and the display is sideways. If this happens drag down the status bar at the very top of the virtual device and select the auto-rotate button 2nd from the right in the settings.
    Figure 2.5: Quick settings bar with Wi-Fi and Auto-rotate button selected

    Figure 2.5: Quick settings bar with Wi-Fi and Auto-rotate button selected

    You should see the following callbacks:

    D/MainActivity: onCreate
    D/MainActivity: onStart
    D/MainActivity: onResume
    D/MainActivity: onPause
    D/MainActivity: onStop
    D/MainActivity: onSaveInstanceState
    D/MainActivity: onDestroy
    D/MainActivity: onCreate
    D/MainActivity: onStart
    D/MainActivity: onRestoreInstanceState
    D/MainActivity: onResume

    Please note that as stated in step 11, the order of the onSaveInstanceState(outState: Bundle?) callback may vary.

  14. Configuration changes, such as rotating the phone, by default recreate the activity. You can choose not to handle certain configuration changes in the app, which will then not recreate the activity. To do this for rotation, add android:configChanges="orientation|screenSize|screenLayout" to MainActivity in the AndroidManifest.xml file. Launch the app and then rotate the phone, and these are the only callbacks that you have added to MainActivity that you will see:
    D/MainActivity: onCreate
    D/MainActivity: onStart
    D/MainActivity: onResume

    The orientation and screenSize values have the same function for different Android API levels for detecting screen orientation changes. The screenLayout value detects other layout changes which might occur on foldable phones. These are some of the config changes you can choose to handle yourself (another common one is keyboardHidden to react to changes in accessing the keyboard). The app will still be notified by the system of these changes through the following callback:

    override fun onConfigurationChanged(newConfig: Configuration) {
        super.onConfigurationChanged(newConfig)
        Log.d(TAG, "onConfigurationChanged")
    }

    If you add this callback function to MainActivity, and you have added android:configChanges="orientation|screenSize|screenLayout" to MainActivity in the manifest, you will see it called on rotation.

In this exercise, you have learned about the principal Activity callbacks and how they run when a user carries out common operations with your app through the system's interaction with MainActivity. In the next section, you will cover saving the state and restoring it, as well as see more examples of how the Activity lifecycle works.

Saving and Restoring the Activity State

In this section, you'll explore how your Activity saves and restores the state. As you've learned in the previous section, configuration changes, such as rotating the phone, cause the Activity to be recreated. This can also happen if the system has to kill your app in order to free up memory. In these scenarios, it is important to preserve the state of the Activity and then restore it. In the next two exercises, you'll work through an example ensuring that the user's data is restored when TextView is created and populated from a user's data after filling in a form.

Exercise 2.02: Saving and Restoring the State in Layouts

In this exercise, firstly create an application called Save and Restore with an empty activity. The app you are going to create will have a simple form that offers a discount code for a user's favorite restaurant if they enter some personal details (no actual information will be sent anywhere, so your data is safe):

  1. Open up the strings.xml file (located in app | src | main | res | values | strings.xml) and create the following strings that you'll need for your app:
    <resources>
        <string name="app_name">Save And Restore</string>
        <string name="header_text">Enter your name and email       for a discount code at Your Favorite Restaurant!        </string>
        <string name="first_name_label">First Name:</string>
        <string name="email_label">Email:</string>
        <string name="last_name_label">Last Name:</string>
        <string name="discount_code_button">GET DISCOUNT</string>
        <string name="discount_code_confirmation">Your       discount code is below %s. Enjoy!</string>
    </resources>
  2. You are also going to specify some text sizes, layout margins, and padding directly, so create the dimens.xml file in the app | src | main | res | values folder and add the dimensions you'll need for the app (you can do this by right-clicking on the res | values folder within Android Studio and selecting New values):
    <?xml version="1.0" encoding="utf-8"?>
    <resources>
        <dimen name="grid_4">4dp</dimen>
        <dimen name="grid_8">8dp</dimen>
        <dimen name="grid_12">12dp</dimen>
        <dimen name="grid_16">16dp</dimen>
        <dimen name="grid_24">24dp</dimen>
        <dimen name="grid_32">32dp</dimen>
        <dimen name="default_text_size">20sp</dimen>
        <dimen name="discount_code_text_size">20sp</dimen>
    </resources>

    Here, you are specifying all the dimensions you need in the exercise. You will see here that default_text_size and discount_code_text_size are specified in sp. They represent the same values as density-independent pixels, which not only define the size measurement according to the density of the device that your app is being run on but also change the text size according to the user's preference, defined in Settings | Display | Font style (this might be Font size and style or something similar, depending on the exact device you are using).

  3. In R.layout.activity_main, add the following XML, creating a containing layout file and adding header a TextView with the Enter your name and email for a discount code at Your Favorite Restaurant! text. This is done by adding the android:text attribute with the @string/header_text value:
    <?xml version="1.0" encoding="utf-8"?>
    <androidx.constraintlayout.widget.ConstraintLayout 
        xmlns:android="http://schemas.android.com/apk/res/android"
        xmlns:app="http://schemas.android.com/apk/res-auto"
        xmlns:tools="http://schemas.android.com/tools"
        android:layout_width="match_parent"
        android:layout_height="match_parent"
        android:padding="@dimen/grid_4"
        android:layout_marginTop="@dimen/grid_4"
        tools:context=".MainActivity">
        <TextView
            android:id="@+id/header_text"
            android:gravity="center"
            android:textSize="@dimen/default_text_size"
            android:paddingStart="@dimen/grid_8"
            android:paddingEnd="@dimen/grid_8"
            android:layout_width="wrap_content"
            android:layout_height="wrap_content"
            android:text="@string/header_text"
            app:layout_constraintTop_toTopOf="parent"
            app:layout_constraintEnd_toEndOf="parent"
            app:layout_constraintStart_toStartOf="parent"/>
    </androidx.constraintlayout.widget.ConstraintLayout>

    You are using ConstraintLayout for constraining Views against the parent View and sibling Views.

    Although you should normally specify the display of the View with styles, you can do this directly in the XML, as is done for some attributes here. The value of the android:textSize attribute is @dimen/default_text_size, defined in the previous code block, which you use to avoid repetition, and it enables you to change all the text size in one place. Using styles is the preferred option for setting text sizes as you will get sensible defaults and you can override the value in the style or, as you are doing here, on the individual Views.

    Other attributes that affect positioning are also specified directly here in the Views. The most common ones are padding and margin. Padding is applied on the inside of Views and is the space between the text and the border. Margin is specified on the outside of Views and is the space from the outer edges of Views. For example, android:padding in ConstraintLayout sets the padding for the View with the specified value on all sides. Alternatively, you can specify the padding for one of the four sides of a View with android:paddingTop, android:paddingBottom, android:paddingStart, and android:paddingEnd. This pattern also exists to specify margins, so android:layout_margin specifies the margin value for all four sides of a View and android:layoutMarginTop, android:layoutMarginBottom, android:layoutMarginStart, and android:layoutMarginEnd allow setting the margin for individual sides.

    For API levels less than 17 (and your app supports down to 16) you also have to add android:layoutMarginLeft if you use android:layoutMarginStart and android:layoutMarginRight if you use android:layoutMarginEnd. In order to have consistency and uniformity throughout the app, you define the margin and padding values as dimensions contained within the dimens.xml file.

    To position the content within a View, you can specify android:gravity. The center value constrains the content both vertically and horizontally within the View.

  4. Next, add three EditText views below the header_text for the user to add their first name, last name, and email:
        <EditText
            android:id="@+id/first_name"
            android:textSize="@dimen/default_text_size"
            android:layout_marginStart="@dimen/grid_24"
            android:layout_marginLeft="@dimen/grid_24"
            android:layout_marginEnd="@dimen/grid_16"
            android:layout_marginRight="@dimen/grid_16"
            android:layout_width="wrap_content"
            android:layout_height="wrap_content"
            android:hint="@string/first_name_label"
            android:inputType="text"
            app:layout_constraintTop_toBottomOf="@id/header_text"
            app:layout_constraintStart_toStartOf="parent" />
        <EditText
            android:textSize="@dimen/default_text_size"
            android:layout_marginEnd="@dimen/grid_24"
            android:layout_marginRight="@dimen/grid_24"
            android:layout_width="wrap_content"
            android:layout_height="wrap_content"
            android:hint="@string/last_name_label"
            android:inputType="text"
            app:layout_constraintTop_toBottomOf="@id/header_text"
            app:layout_constraintStart_toEndOf="@id/first_name"
            app:layout_constraintEnd_toEndOf="parent" />
        <!-- android:inputType="textEmailAddress" is not enforced, 
          but is a hint to the IME (Input Method Editor) usually a 
          keyboard to configure the display for an email - 
          typically by showing the '@' symbol -->
        <EditText
            android:id="@+id/email"
            android:textSize="@dimen/default_text_size"
            android:layout_marginStart="@dimen/grid_24"
            android:layout_marginLeft="@dimen/grid_24"
            android:layout_marginEnd="@dimen/grid_32"
            android:layout_marginRight="@dimen/grid_32"
            android:layout_width="match_parent"
            android:layout_height="wrap_content"
            android:hint="@string/email_label"
            android:inputType="textEmailAddress"
            app:layout_constraintTop_toBottomOf="@id/first_name"
            app:layout_constraintEnd_toEndOf="parent"
            app:layout_constraintStart_toStartOf="parent" />

    The EditText fields have an inputType attribute to specify the type of input that can be entered into the form field. Some values, such as number on EditText, restrict the input that can be entered into the field, and on selecting the field, suggest how the keyboard is displayed. Others, such as android:inputType="textEmailAddress", will not enforce an @ symbol being added to the form field, but will give a hint to the keyboard to display it.

  5. Finally, add a button for the user to press to generate a discount code, and display the discount code itself and a confirmation message:
        <Button
            android:id="@+id/discount_button"
            android:textSize="@dimen/default_text_size"
            android:layout_marginTop="@dimen/grid_12"
            android:gravity="center"
            android:layout_width="wrap_content"
            android:layout_height="wrap_content"
            android:text="@string/discount_code_button"
            app:layout_constraintTop_toBottomOf="@id/email"
            app:layout_constraintEnd_toEndOf="parent"
            app:layout_constraintStart_toStartOf="parent"/>
        <TextView
            android:id="@+id/discount_code_confirmation"
            android:gravity="center"
            android:textSize="@dimen/default_text_size"
            android:paddingStart="@dimen/grid_16"
            android:paddingEnd="@dimen/grid_16"
            android:layout_marginTop="@dimen/grid_8"
            android:layout_width="match_parent"
            android:layout_height="wrap_content"
            app:layout_constraintTop_toBottomOf="@id/discount_button"
            app:layout_constraintEnd_toEndOf="parent"
            app:layout_constraintStart_toStartOf="parent"
            tools:text="Hey John Smith! Here is your discount code" />
        <TextView
            android:id="@+id/discount_code"
            android:gravity="center"
            android:textSize="@dimen/discount_code_text_size"
            android:textStyle="bold"
            android:layout_marginTop="@dimen/grid_8"
            android:layout_width="match_parent"
            android:layout_height="wrap_content"
            app:layout_constraintTop_toBottomOf="@id/discount_code           _confirmation"
            app:layout_constraintEnd_toEndOf="parent"
            app:layout_constraintStart_toStartOf="parent"
            tools:text="XHFG6H9O" />

    There are also some attributes that you haven't seen before. The tools namespace xmlns:tools="http://schemas.android.com/tools" which was specified at the top of the xml layout file enables certain features that can be used when creating your app to assist with configuration and design. The attributes are removed when you build your app, so they don't contribute to the overall size of the app. You are using the tools:text attribute to show the text that will typically be displayed in the form fields. This helps when you switch to the Design view from viewing the XML in the Code view in Android Studio as you can see an approximation of how your layout displays on a device.

  6. Run the app and you should see the output displayed in Figure 2.6:
    Figure 2.6: The Activity screen on the first launch

    Figure 2.6: The Activity screen on the first launch

  7. Enter some text into each of the form fields:
    Figure 2.7: The EditText fields filled in

    Figure 2.7: The EditText fields filled in

  8. Now, use the second rotate button in the virtual device controls (1) to rotate the phone 90 degrees to the right:
    Figure 2.8: The virtual device turned to landscape orientation

    Figure 2.8: The virtual device turned to landscape orientation

    Can you spot what has happened? The Last Name field value is no longer set. It has been lost in the process of recreating the activity. Why is this? Well, in the case of the EditText fields, the Android framework will preserve the state of the fields if they have an ID set on them.

  9. Go back to the activity_main.xml layout file and add an ID for the Last Name value in the EditText field:
    <EditText
        android:id="@+id/last_name"
        android:textSize="@dimen/default_text_size"
        android:layout_marginEnd="@dimen/grid_24"
        android:layout_width="wrap_content"
        android:layout_height="wrap_content"
        android:hint="@string/last_name_label"
        android:inputType="text"
        app:layout_constraintTop_toBottomOf="@id/header_text"
        app:layout_constraintStart_toEndOf="@id/first_name"
        app:layout_constraintEnd_toEndOf="parent"
        tools:text="Last Name:"/>

When you run up the app again and rotate the device, it will preserve the value you have entered. You've now seen that you need to set an ID on the EditText fields to preserve the state. For the EditText fields, it's common to retain the state on a configuration change when the user is entering details into a form so that it is the default behavior if the field has an ID. Obviously, you want to get the details of the EditText field once the user has entered some text, which is why you set an ID, but setting an ID for other field types, such as TextView, does not retain the state if you update them and you need to save the state yourself. Setting IDs for Views that enable scrolling, such as RecyclerView, is also important as it enables the scroll position to be maintained when the Activity is recreated.

Now, you have defined the layout for the screen, but you have not added any logic for creating and displaying the discount code. In the next exercise, we will work through this.

The layout created in this exercise is available at http://packt.live/35RSdgz.

You can find the code for the entire exercise at http://packt.live/3p1AZF3.

Exercise 2.03: Saving and Restoring the State with Callbacks

The aim of this exercise is to bring all the UI elements in the layout together to generate a discount code after the user has entered their data. In order to do this, you will have to add logic to the button to retrieve all the EditText fields and then display a confirmation to the user, as well as generate a discount code:

  1. Open up MainActivity.kt and replace the default empty Activity from the project creation. A snippet of the code is shown here, but you'll need to use the link given below to find the full code block you need to add:

    MainActivity.kt

    14  class MainActivity : AppCompatActivity() {
    15
    16    private val discountButton: Button
    17        get() = findViewById(R.id.discount_button)
    18
    19    private val firstName: EditText
    20        get() = findViewById(R.id.first_name)
    21
    22    private val lastName: EditText
    23        get() = findViewById(R.id.last_name)
    24
    25    private val email: EditText
    26        get() = findViewById(R.id.email)
    27  
    28    private val discountCodeConfirmation: TextView
    29        get() = findViewById(R.id             .discount_code_confirmation)
    30
    31    private val discountCode: TextView
    32        get() = findViewById(R.id.discount_code)    
    33  
    34    override fun onCreate(savedInstanceState: Bundle?) {
    35        super.onCreate(savedInstanceState)
    36        setContentView(R.layout.activity_main)
    37        Log.d(TAG, "onCreate")

    The get() = … is a custom accessor for a property.

    Upon clicking the discount button, you retrieve the values from the first_name and last_name fields, concatenate them with a space, and then use a string resource to format the discount code confirmation text. The string you reference in the strings.xml file is as follows:

    <string name="discount_code_confirmation">Hey  %s! Here is   your discount code</string>

    The %s value specifies a string value to be replaced when the string resource is retrieved. This is done by passing in the full name when getting the string:

    getString(R.string.discount_code_confirmation, fullName)

    The code is generated by using the UUID (Universally Unique Identifier) library from the java.util package. This creates a unique id, and then the take() Kotlin function is used to get the first eight characters before setting these to uppercase. Finally, discount_code is set in the view, the keyboard is hidden, and all the form fields are set back to their initial values.

  2. Run the app and enter some text into the name and email fields, and then click on GET DISCOUNT:
    Figure 2.9: Screen displayed after the user has generated a discount code

    Figure 2.9: Screen displayed after the user has generated a discount code

    The app behaves as expected, showing the confirmation.

  3. Now, rotate the phone (pressing the fifth button down with the arrow on the right-hand side of the virtual device picture) and observe the result:
    Figure 2.10: Discount code no longer displaying on the screen

    Figure 2.10: Discount code no longer displaying on the screen

    Oh, no! The discount code has gone. The TextView fields do not retain the state, so you will have to save the state yourself.

  4. Go back into MainActivity.kt and add the following Activity callbacks:
    override fun onRestoreInstanceState(savedInstanceState:   Bundle) {
        super.onRestoreInstanceState(savedInstanceState)
        Log.d(TAG, "onRestoreInstanceState")
    }
    override fun onSaveInstanceState(outState: Bundle) {
        super.onSaveInstanceState(outState)
        Log.d(TAG, "onSaveInstanceState")
    }

    These callbacks, as the names declare, enable you to save and restore the instance state. onSaveInstanceState(outState: Bundle) allows you to add key-value pairs from your Activity when it is being backgrounded or destroyed, which you can retrieve in either onCreate(savedInstanceState: Bundle?) or onRestoreInstanceState(savedInstanceState: Bundle).

    So, you have two callbacks to retrieve the state once it has been set. If you are doing a lot of initialization in onCreate(savedInstanceState: Bundle), it might be better to use onRestoreInstanceState(savedInstanceState: Bundle) to retrieve this instance state when your Activity is being recreated. In this way, it's clear which state is being recreated. However, you might prefer to use onCreate(savedInstanceState: Bundle) if there is minimal setup required.

    Whichever of the two callbacks you decide to use, you will have to get the state you set in the onSaveInstanceState(outState: Bundle) call. For the next step in the exercise, you will use onRestoreInstanceState(savedInstanceState: Bundle).

  5. Add two constants to the MainActivity companion object:
    private const val DISCOUNT_CONFIRMATION_MESSAGE =   "DISCOUNT_CONFIRMATION_MESSAGE"
    private const val DISCOUNT_CODE = "DISCOUNT_CODE"
  6. Now, add these constants as keys for the values you want to save and retrieve by making the following additions to the Activity:
        override fun onRestoreInstanceState(
            savedInstanceState: Bundle) {
            super.onRestoreInstanceState(savedInstanceState)
            Log.d(TAG, "onRestoreInstanceState")
            //Get the discount code or an empty           string if it hasn't been set
            discountCode.text = savedInstanceState           .getString(DISCOUNT_CODE,"")
            //Get the discount confirmation message           or an empty string if it hasn't been set
            discountCodeConfirmation.text =          savedInstanceState.getString(            DISCOUNT_CONFIRMATION_MESSAGE,"")
        }
        override fun onSaveInstanceState(outState: Bundle) {
            super.onSaveInstanceState(outState)
            Log.d(TAG, "onSaveInstanceState")
            outState.putString(DISCOUNT_CODE,          discountCode.text.toString())
            outState.putString(DISCOUNT_CONFIRMATION_MESSAGE,          discountCodeConfirmation.text.toString())
        }
  7. Run the app, enter the values into the EditText fields, and then generate a discount code. Then, rotate the device and you will see that the discount code is restored in Figure 2.11:
    Figure 2.11: Discount code continues to be displayed on the screen

Figure 2.11: Discount code continues to be displayed on the screen

In this exercise, you first saw how the state of the EditText fields is maintained on configuration changes. You also saved and restored the instance state using the Activity lifecycle onSaveInstanceState(outState: Bundle) and onCreate(savedInstanceState: Bundle?)/onRestoreInstanceState(savedInstanceState: Bundle) functions. These functions provide a way to save and restore simple data. The Android framework also provides ViewModel, an Android architecture component that is lifecycle-aware. The mechanisms of how to save and restore this state (with ViewModel) are managed by the framework, so you don't have to explicitly manage it as you have done in the preceding example. You will learn how to use this component in Chapter 10, Android Architecture Components.

So far, you have created a single-screen app. Although it is possible for simple apps to use one Activity, it is likely that you will want to organize your app into different activities that handle different functions. So, in the next section, you will add another Activity to an app and navigate between the activities.

Activity Interaction with Intents

An intent in Android is a communication mechanism between components. Within your own app, a lot of the time, you will want another specific Activity to start when some action happens in the current activity. Specifying exactly which Activity will start is called an explicit intent. On other occasions, you will want to get access to a system component, such as the camera. As you can't access these components directly, you will have to send an intent, which the system resolves in order to open the camera. These are called implicit intents. An intent filter has to be set up in order to register to respond to these events. Go to the AndroidManifest.xml file and you will see an example of two intent filters set within the <intent-filter> XML element:

<activity android:name=".MainActivity">
    <intent-filter>
        <action android:name="android.intent.action.MAIN" />
        <category android:name="android.intent.category.          LAUNCHER" />
    </intent-filter>
</activity>

The one specified with <action android:name="android.intent.action.MAIN" /> means that this is the main entry point into the app. Depending on which category is set, it governs which Activity first starts when the app is started. The other intent filter that is specified is <category android:name="android.intent.category.LAUNCHER" />, which defines that the app should appear in the launcher. When combined, the two intent filters define that when the app is started from the launcher, MainActivity should be started. Removing any one of these intent filters results in the "Error running 'app': Default Activity not found" message. As the app has not got a main entry point, it can't be launched, which is what also happens when you remove <action android:name="android.intent.action.MAIN". />. If you remove <category android:name="android.intent.category.LAUNCHER" /> and don't specify a category, then there is nowhere that it can be launched from.

For the next exercise, you will see how intents work to navigate around your app.

Exercise 2.04: An Introduction to Intents

The goal of this exercise is to create a simple app that uses intents to display text to the user based on their input. Create a new project in Android Studio and select an empty Activity. Once you have set up the project, go to the toolbar and select File | New | Activity | Empty Activity. Call it WelcomeActivity and leave all the other defaults as they are. It will be added to the AndroidManifest.xml file, ready to use. The issue you have now that you've added WelcomeActivity is how do you do anything with it? MainActivity starts when you launch the app, but you need a way to launch WelcomeActivity and then, optionally, pass data to it, which is when you use intents:

  1. In order to work through this example, add the following code to the strings.xml file. These are the strings you'll be using in the app:
    <resources>
        <string name="app_name">Intents Introduction</string>
        <string name="header_text">Please enter your name and       then we\'ll get started!</string>
        <string name="welcome_text">Hello %s, we hope you enjoy       using the app!</string>
        <string name="full_name_label">Enter your full       name:</string>
        <string name="submit_button_text">SUBMIT</string>
    </resources>
  2. Next, update the styles in the themes.xml file adding the header style.
        <style name="header" parent=      "TextAppearance.AppCompat.Title">
            <item name="android:gravity">center</item>
            <item name="android:layout_marginStart">24dp</item>
            <item name="android:layout_marginEnd">24dp</item>
            <item name="android:layout_marginLeft">24dp</item>
            <item name="android:layout_marginRight">24dp</item>
            <item name="android:textSize">20sp</item>
        </style>
        <!--  continued below -->

    Next, add the fullname, button, and page styles:

        <style name="full_name" parent=      "TextAppearance.AppCompat.Body1">
            <item name="android:layout_marginTop">16dp</item>
            <item name="android:layout_gravity">center</item>
            <item name="android:textSize">20sp</item>
            <item name="android:inputType">text</item>
        </style>
        <style name="button" parent=      "TextAppearance.AppCompat.Button">
            <item name="android:layout_margin">16dp</item>
            <item name="android:gravity">center</item>
            <item name="android:textSize">20sp</item>
        </style>
        <style name="page">
            <item name="android:layout_margin">8dp</item>
            <item name="android:padding">8dp</item>
        </style>

    Normally, you wouldn't specify dimensions directly in the styles themselves. They should be referenced as dimens values so that they can be updated in one place, are more uniform, and can be labeled to represent what the dimension actually is. This is not done here for simplicity.

  3. Next, change the MainActivity layout in activity_main.xml and add a TextView header:
    <?xml version="1.0" encoding="utf-8"?>
    <androidx.constraintlayout.widget.ConstraintLayout 
        xmlns:android="http://schemas.android.com/apk/res/android"
        xmlns:app="http://schemas.android.com/apk/res-auto"
        xmlns:tools="http://schemas.android.com/tools"
        android:layout_width="match_parent"
        android:layout_height="match_parent"
        style="@style/page"
        tools:context=".MainActivity">
        <TextView
            android:id="@+id/header_text"
            style="@style/header"
            android:layout_width="wrap_content"
            android:layout_height="wrap_content"
            android:text="@string/header_text"
            app:layout_constraintTop_toTopOf="parent"
            app:layout_constraintEnd_toEndOf="parent"
            app:layout_constraintStart_toStartOf="parent"/>
    </androidx.constraintlayout.widget.ConstraintLayout>

    This should be the first View displayed, and as it's constrained using ConstraintLayout to the top of its parent, it displays at the top of the screen. As it's also constrained to both the start and end of its parent, it will be displayed in the middle when you run the app, as shown in Figure 2.12:

    Figure 2.12: Initial app display after adding the TextView header

    Figure 2.12: Initial app display after adding the TextView header

  4. Now, add an EditText field for the full name and a Button field for the submit button in the activity_main.xml file below the TextView header:
        <EditText
            android:id="@+id/full_name"
            style="@style/full_name"
            android:layout_width="wrap_content"
            android:layout_height="wrap_content"
            android:hint="@string/full_name_label"
            app:layout_constraintTop_toBottomOf="@id/header_text"
            app:layout_constraintStart_toStartOf="parent"
            app:layout_constraintEnd_toEndOf="parent"/>
        <Button
            android:id="@+id/submit_button"
            style="@style/button"
            android:layout_width="wrap_content"
            android:layout_height="wrap_content"
            android:text="@string/submit_button_text"
            app:layout_constraintTop_toBottomOf="@id/full_name"
            app:layout_constraintEnd_toEndOf="parent"
            app:layout_constraintStart_toStartOf="parent"/>

    The app, when run, looks as in Figure 2.13:

    Figure 2.13: The app display after adding the EditText full name field and submit button

    Figure 2.13: The app display after adding the EditText full name field and submit button

    You now need to configure the button so that when it's clicked, it retrieves the user's full name from the EditText field and then sends it in an intent, which starts WelcomeActivity.

  5. Update the activity_welcome.xml layout file to prepare to do this:
    <?xml version="1.0" encoding="utf-8"?>
    <androidx.constraintlayout.widget.ConstraintLayout 
        xmlns:android="http://schemas.android.com/apk/res/android"
        xmlns:app="http://schemas.android.com/apk/res-auto"
        xmlns:tools="http://schemas.android.com/tools"
        android:layout_width="match_parent"
        android:layout_height="match_parent"
        style="@style/page"
        tools:context=".WelcomeActivity">
        <TextView
            android:id="@+id/welcome_text"
            style="@style/header"
            android:layout_width="wrap_content"
            android:layout_height="wrap_content"
            app:layout_constraintTop_toTopOf="parent"
            app:layout_constraintEnd_toEndOf="parent"
            app:layout_constraintStart_toStartOf="parent"
            app:layout_constraintBottom_toBottomOf="parent"
            tools:text="Welcome John Smith we hope you enjoy           using the app!"/>
    </androidx.constraintlayout.widget.ConstraintLayout>

    You are adding a TextView field to display the full name of the user with a welcome message. The logic to create the full name and welcome message will be shown in the next step.

  6. Now, open MainActivity and add a constant value above the class header and also update the imports:
    package com.example.intentsintroduction
    import android.content.Intent
    import android.os.Bundle
    import android.widget.Button
    import android.widget.EditText
    import android.widget.Toast
    import androidx.appcompat.app.AppCompatActivity
    const val FULL_NAME_KEY = "FULL_NAME_KEY"
    class MainActivity : AppCompatActivity()… 

    You will use the constant to set the key to hold the full name of the user by setting it in the intent.

  7. Then, add the following code to the bottom of onCreate(savedInstanceState: Bundle?):
    findViewById<Button>(R.id.submit_button).setOnClickListener {
        val fullName = findViewById<EditText>(R.id.full_name)      .text.toString().trim()
        if (fullName.isNotEmpty()) {
            //Set the name of the Activity to launch
            Intent(this, WelcomeActivity::class.java)          .also { welcomeIntent ->
                //Add the data
                welcomeIntent.putExtra(FULL_NAME_KEY, fullName)
                //Launch
                startActivity(welcomeIntent)
            }
        } else {
            Toast.makeText(this, getString(          R.string.full_name_label),           Toast.LENGTH_LONG).show()
        }
    }

    There is logic to retrieve the value of the full name and verify that the user has filled this in; otherwise, a pop-up toast message will be shown if it is blank. The main logic, however, takes the fullName value of the EditText field and creates an explicit intent to start WelcomeActivity. The also scope function allows you to carry on using the intent you've just created, Intent(this, WelcomeActivity::class.java), and further operate on it by using something called a lambda expression. The lambda argument here has a default name of it but here for clarity we've called it welcomeIntent. Then, you use the lambda argument in the welcomeIntent.putExtra(FULL_NAME_KEY, fullName) line to add the fullName field, using FULL_NAME_KEY as the key and fullName as the value to the extras that the intent holds.

    Then, you use the intent to start WelcomeActivity.

  8. Now, run the app, enter your name, and press SUBMIT, as shown in Figure 2.14:
    Figure 2.14: The default screen displayed when the intent extras data is not processed

    Figure 2.14: The default screen displayed when the intent extras data is not processed

    Well, that's not very impressive. You've added the logic to send the user's name, but not to display it.

  9. To enable this, please open WelcomeActivity and add the following to the bottom of the onCreate(savedInstanceState: Bundle?) callback:
    //Get the intent which started this activity
    intent?.let {
        //Set the welcome message
        val fullName = it.getStringExtra(FULL_NAME_KEY)
        findViewById<TextView>(R.id.welcome_text).text =
          getString(R.string.welcome_text, fullName)
    }

    We reference the intent that started the Activity with intent?.let{} which specifies that the let block will be run if the intent is not null, and let is a scope function in which you can reference the context object with a default lambda argument of it. This means you don't have to assign a variable before you can use it. You reference the intent with it and then retrieve the string value that was passed from the MainActivity intent by getting the string FULL_NAME_KEY extra key. You then format the <string name="welcome_text">Hello %s, we hope you enjoy using the app!</string> resource string by getting the string from the resources and passing in the fullname value retrieved from the intent. Finally, this is set as the text of TextView.

  10. Run the app again, and a simple greeting will be displayed, as in Figure 2.15:
    Figure 2.15: User welcome message displayed

Figure 2.15: User welcome message displayed

This exercise, although very simple in terms of layouts and user interaction, allows the demonstration of some core principles of intents. You will use them to add navigation and create user flows from one section of your app to another. In the next section, you will see how you can use intents to launch an Activity and receive a result back from it.

Exercise 2.05: Retrieving a Result from an Activity

For some user flows, you will only launch an Activity for the sole purpose of retrieving a result back from it. This pattern is often used to ask permission to use a particular feature, popping up a dialog with a question about whether the user gives their permission to access contacts, the calendar, and so on, and then reporting the result of yes or no back to the calling Activity. In this exercise, you will ask the user to pick their favorite color of the rainbow, and then once that is chosen, display the result in the calling activity:

  1. Create a new project named Activity Results and add the following strings to the strings.xml file:
        <string name="header_text_main">Please click the button       below to choose your favorite color of the rainbow!        </string>
        <string name="header_text_picker">Rainbow Colors</string>
        <string name="footer_text_picker">Click the button       above which is your favorite color of the rainbow.        </string>
        <string name="color_chosen_message">%s is your favorite       color!</string>
        <string name="submit_button_text">CHOOSE COLOR</string>
        <string name="red">RED</string>
        <string name="orange">ORANGE</string>
        <string name="yellow">YELLOW</string>
        <string name="green">GREEN</string>
        <string name="blue">BLUE</string>
        <string name="indigo">INDIGO</string>
        <string name="violet">VIOLET</string>
        <string name="unexpected_color">Unexpected color</string>
  2. Add the following colors to colors.xml
        <!--Colors of the Rainbow -->
        <color name="red">#FF0000</color>
        <color name="orange">#FF7F00</color>
        <color name="yellow">#FFFF00</color>
        <color name="green">#00FF00</color>
        <color name="blue">#0000FF</color>
        <color name="indigo">#4B0082</color>
        <color name="violet">#9400D3</color>
  3. Add the relevant new styles to the themes.xml file. A snippet is shown below, but you'll need to follow the link given to see all the code that you need to add:

    themes.xml

    11    <!-- Style for page header on launch screen -->
    12    <style name="header" parent=        "TextAppearance.AppCompat.Title">
    13        <item name="android:gravity">center</item>
    14        <item name="android:layout_marginStart">24dp</item>
    15        <item name="android:layout_marginEnd">24dp</item>
    16        <item name="android:layout_marginLeft">24dp</item>
    17        <item name="android:layout_marginRight">24dp</item>
    18        <item name="android:textSize">20sp</item>
    19    </style>
    20
    21    <!-- Style for page header on rainbow color         selection screen -->
    22    <style name="header.rainbows" parent="header">
    23        <item name="android:textSize">22sp</item>
    24        <item name="android:textAllCaps">true</item>
    25    </style>

    Note

    Dimensions have not been added to dimens.xml for simplicity.

  4. Now, you have to set up the Activity that will set the result you receive in MainActivity. Go to File | New | Activity | EmptyActivity and create an Activity called RainbowColorPickerActivity.
  5. Update the activity_main.xml layout file to display a header, a button, and then a hidden android:visibility="gone" View, which will be made visible and set with the user's favorite color of the rainbow when the result is reported:
    <?xml version="1.0" encoding="utf-8"?>
    <androidx.constraintlayout.widget.ConstraintLayout 
        xmlns:android="http://schemas.android.com/apk/res/android"
        xmlns:app="http://schemas.android.com/apk/res-auto"
        xmlns:tools="http://schemas.android.com/tools"
        android:layout_width="match_parent"
        android:layout_height="match_parent"
        style="@style/page"
        tools:context=".MainActivity">
        <TextView
            android:id="@+id/header_text"
            style="@style/header"
            android:layout_width="wrap_content"
            android:layout_height="wrap_content"
            android:text="@string/header_text_main"
            app:layout_constraintTop_toTopOf="parent"
            app:layout_constraintEnd_toEndOf="parent"
            app:layout_constraintStart_toStartOf="parent"/>
        <Button
            android:id="@+id/submit_button"
            style="@style/button"
            android:layout_width="wrap_content"
            android:layout_height="wrap_content"
            android:text="@string/submit_button_text"
            app:layout_constraintTop_toBottomOf="@id/header_text"
            app:layout_constraintEnd_toEndOf="parent"
            app:layout_constraintStart_toStartOf="parent"/>
        <TextView
            android:id="@+id/rainbow_color"
            style="@style/color_block"
            android:visibility="gone"
            app:layout_constraintTop_toBottomOf="@id/          submit_button"
            app:layout_constraintStart_toStartOf="parent"
            app:layout_constraintEnd_toEndOf="parent"
            tools:text="This is your favorite color of the           rainbow"/>
    </androidx.constraintlayout.widget.ConstraintLayout>
  6. You'll be using the startActivityForResult(Intent intent, int requestCode) function to get a result back from the Activity you launch. In order to ensure that the result you get back is from the operation you expected, you have to set requestCode. Add this constant for the request code, and two others to set keys for the values we want to use in the intent, as well as a default color above the class header in MainActivity so it is displayed as follows with the package name and imports:
    package com.example.activityresults
    import android.content.Intent
    import androidx.appcompat.app.AppCompatActivity
    import android.os.Bundle
    import android.widget.Button
    import android.widget.TextView
    const val PICK_RAINBOW_COLOR_INTENT = 1  // The request code
    // Key to return rainbow color name in intent
    const val RAINBOW_COLOR_NAME = "RAINBOW_COLOR_NAME" 
    // Key to return rainbow color in intent
    const val RAINBOW_COLOR = "RAINBOW_COLOR" 
    const val DEFAULT_COLOR = "#FFFFFF" // White
    class MainActivity : AppCompatActivity()…
  7. Then, at the bottom of onCreate(savedInstanceState: Bundle?) in MainActivity add the following:
            findViewById<Button>(R.id.submit_button).setOnClickListener {
            //Set the name of the Activity to launch passing 
            //in request code
                Intent(this, RainbowColorPickerActivity::class.java)
                .also { rainbowColorPickerIntent ->
                    startActivityForResult(
                        rainbowColorPickerIntent,
                        PICK_RAINBOW_COLOR_INTENT
                    )
                }
            }

    This uses the syntax you used previously with also to create an intent and use it with a named lambda parameter of the context object. In this case, you are using rainbowColorPickerIntent to refer to the intent you just created with Intent(this, RainbowColorPickerActivity::class.java).

    The key call is startActivityForResult(rainbowColorPickerIntent, PICK_RAINBOW_COLOR_INTENT), which launches RainbowColorPickerActivity with a request code. So, when do we get this result back? You receive the result when it is set by overriding onActivityResult(requestCode: Int, resultCode: Int, data: Intent?).

    This call specifies the request code, which you can check to confirm that it is the same as the request code you sent. resultCode reports the status of the operation. You can set your own code, but it is usually set to Activity.RESULT_OK or Activity.RESULT_CANCELED, and the last parameter, data, is the intent that has been set by the activity started for the result, RainbowColorPickerActivity.

  8. Add the following to onActivityResult(requestCode: Int, resultCode: Int, data: Intent?) callback in MainActivity:
    override fun onActivityResult(requestCode: Int, resultCode:   Int, data: Intent?) {
        super.onActivityResult(requestCode, resultCode, data)
        if (requestCode == PICK_RAINBOW_COLOR_INTENT &&       resultCode == Activity.RESULT_OK) {
            val backgroundColor = data?.getIntExtra(RAINBOW_COLOR,           Color.parseColor(DEFAULT_COLOR)) ?:             Color.parseColor(DEFAULT_COLOR)
            val colorName = data?.getStringExtra           (RAINBOW_COLOR_NAME) ?: ""
            val colorMessage = getString           (R.string.color_chosen_message, colorName)
            val rainbowColor = findViewById           <TextView>(R.id.rainbow_color)
    rainbowColor.setBackgroundColor(ContextCompat.getColor(this,   backgroundColor))
            rainbowColor.text = colorMessage
            rainbowColor.isVisible = true
        }
    }
  9. So, you check that the request code and response code values are what is expected, and then proceed to query the intent data for the values you are expecting. For this exercise, you want to get the background color name (colorName) and the hexadecimal value of the color (backgroundColor) so that we can display it. The ? operator checks whether the value is null (that is, not set in the intent), and if so, the Elvis operator (?:) sets the default value. The color message uses String formatting to set a message replacing the placeholder in the resource value with the color name. Now that you've got the colors, you can make the rainbow_color TextView field visible and set the background color of the View to backgroundColor and add text displaying the name of the user's favorite color of the rainbow.
  10. For the layout of the RainbowColorPickerActivity activity, you are going to display a button with a background color and color name for each of the seven colors of the rainbow: RED, ORANGE, YELLOW, GREEN, BLUE, INDIGO, and VIOLET. These will be displayed in a LinearLayout vertical list. For most of the layout files in the course, you will be using ConstrainLayout, as it provides fine-grained positioning of individual Views. For situations where you need to display a vertical or horizontal list of a small number of items, LinearLayout is also a good choice. If you need to display a large number of items, then RecyclerView is a better option as it can cache layouts for individual rows and recycle views that are no longer displayed on the screen. You will learn about RecyclerView in Chapter 5, RecyclerView.
  11. The first thing you need to do in RainbowColorPickerActivity is create the layout. This will be where you present the user with the option to choose their favorite color of the rainbow.
  12. Open activity_rainbow_color_picker.xml and replace the layout, inserting the following:
    <?xml version="1.0" encoding="utf-8"?>
    <ScrollView 
        xmlns:android="http://schemas.android.com/apk/res/android"
        xmlns:app="http://schemas.android.com/apk/res-auto"
        xmlns:tools="http://schemas.android.com/tools"
        android:layout_width="match_parent"
        android:layout_height="wrap_content">
    </ScrollView>

    We are adding ScrollView to allow the contents to scroll if the screen height cannot display all of the items. ScrollView can only take one child View, which is the layout to scroll.

  13. Next, add LinearLayout within ScrollView to display the contained views in the order that they are added with a header and a footer. The first child View is a header with the title of the page and the last View that is added is a footer with instructions to the user to pick their favorite color:
        <LinearLayout
            style="@style/page"
            android:layout_width="match_parent"
            android:layout_height="wrap_content"
            android:gravity="center_horizontal"
            android:orientation="vertical"
            tools:context=".RainbowColorPickerActivity">
        <TextView
            android:id="@+id/header_text"
            style="@style/header.rainbows"
            android:layout_width="wrap_content"
            android:layout_height="wrap_content"
            android:text="@string/header_text_picker"
            app:layout_constraintEnd_toEndOf="parent"
            app:layout_constraintStart_toStartOf="parent"
            app:layout_constraintTop_toTopOf="parent"/>
        <TextView
            style="@style/body"
            android:layout_width="wrap_content"
            android:layout_height="wrap_content"
            android:text="@string/footer_text_picker"
            app:layout_constraintEnd_toEndOf="parent"
            app:layout_constraintStart_toStartOf="parent"
            app:layout_constraintTop_toTopOf="parent"/>
        </LinearLayout>

    The layout should now look as in Figure 2.16 in the app:

    Figure 2.16: Rainbow colors screen with a header and footer

    Figure 2.16: Rainbow colors screen with a header and footer

  14. Now, finally, add the button views between the header and the footer to select a color of the rainbow, and then run the app:
        <Button
            android:id="@+id/red_button"
            style="@style/button"
            android:layout_width="wrap_content"
            android:layout_height="wrap_content"
            android:background="@color/red"
            android:text="@string/red"/>
        <Button
            .......
            android:text="@string/orange"/>
        <Button
            .......
            android:text="@string/yellow"/>
        <Button
            .......
            android:text="@string/green"/>
        <Button
            .......
            android:text="@string/blue"/>
        <Button
            .......
            android:text="@string/indigo"/>
        <Button
            .......
            android:text="@string/violet"/>

    The preceding layout created is available at the following link: http://packt.live/2M7okBX

    These Views are buttons that are displayed in the order of the colors of the rainbow. Although there is a button label for the color and the background color, which is filled in with the appropriate color, the most important XML attribute is id. This is what you will use in the Activity to prepare the result of what is returned to the calling activity.

  15. Now, open RainbowColorPickerActivity and replace the content with the following:
    package com.example.activityresults
    import android.app.Activity
    import android.content.Intent
    import androidx.appcompat.app.AppCompatActivity
    import android.os.Bundle
    import android.view.View
    import android.widget.Toast
    class RainbowColorPickerActivity : AppCompatActivity() {
        override fun onCreate(savedInstanceState: Bundle?) {
            super.onCreate(savedInstanceState)
            setContentView(R.layout.activity_rainbow_color_picker)
        }
        private fun setRainbowColor(colorName: String, color: Int) {
            Intent().let { pickedColorIntent ->
                pickedColorIntent.putExtra(RAINBOW_COLOR_NAME,               colorName)
                pickedColorIntent.putExtra(RAINBOW_COLOR, color)
                setResult(Activity.RESULT_OK, pickedColorIntent)
                finish()
            }
        }
    }

    This is the function that creates an intent and puts the relevant String extras holding the rainbow color name and the rainbow color hex value. The result is then returned to the calling Activity, and as you have no further use of this Activity, you call finish() so that the calling Activity is displayed. The way that you retrieve the rainbow color that the user has chosen is done by adding a listener for all the buttons in the layout.

  16. Now, add the following to the bottom of onCreate(savedInstanceState: Bundle?):
    val colorPickerClickListener = View.OnClickListener { view ->
        when (view.id) {
            R.id.red_button -> setRainbowColor(          getString(R.string.red), R.color.red)
            R.id.orange_button -> setRainbowColor(          getString(R.string.orange), R.color.orange)
            R.id.yellow_button -> setRainbowColor(          getString(R.string.yellow), R.color.yellow)
            R.id.green_button -> setRainbowColor(          getString(R.string.green), R.color.green)
            R.id.blue_button -> setRainbowColor(          getString(R.string.blue), R.color.blue)
            R.id.indigo_button -> setRainbowColor(          getString(R.string.indigo), R.color.indigo)
            R.id.violet_button -> setRainbowColor(          getString(R.string.violet), R.color.violet)
            else -> {
                Toast.makeText(this, getString(              R.string.unexpected_color), Toast.LENGTH_LONG)                .show()
            }
        }
    }

    The colorPickerClickListener click listener added in the preceding code determines which colors to set for the setRainbowColor(colorName: String, color: Int) function by using a when statement. The when statement is the equivalent of the switch statement in Java and languages based on C. It allows multiple conditions to be satisfied with one branch and is more concise. In the preceding example, view.id is matched against the IDs of the rainbow layout buttons and when found, executes the branch, setting the color name and hex value from the string resources to pass into setRainbowColor(colorName: String, color: Int).

  17. Now, add this click listener to the buttons from the layout:
    findViewById<View>(R.id.red_button).setOnClickListener(  colorPickerClickListener)
    findViewById<View>(R.id.orange_button).setOnClickListener(  colorPickerClickListener)
    findViewById<View>(R.id.yellow_button).setOnClickListener(  colorPickerClickListener)
    findViewById<View>(R.id.green_button).setOnClickListener(  colorPickerClickListener)
    findViewById<View>(R.id.blue_button).setOnClickListener(  colorPickerClickListener)
    findViewById<View>(R.id.indigo_button).setOnClickListener(  colorPickerClickListener)
    findViewById<View>(R.id.violet_button).setOnClickListener(  colorPickerClickListener)

    Every button has a ClickListener interface attached, and as the operation is the same, they have the same ClickListener interface attached. Then, when the button is pressed, it sets the result of the color that the user has chosen and returns it to the calling activity.

  18. Now, run the app and press the CHOOSE COLOR button, as shown in Figure 2.17:
    Figure 2.17: The rainbow colors app start screen

    Figure 2.17: The rainbow colors app start screen

  19. Now, select your favorite color of the rainbow:
    Figure 2.18: The rainbow colors selection screen

    Figure 2.18: The rainbow colors selection screen

  20. Once you've chosen your favorite color, a screen with your favorite color will be displayed, as shown in Figure 2.19:
    Figure 2.19: The app displaying the selected color

Figure 2.19: The app displaying the selected color

As you can see, the app displays the color that you've selected as your favorite color in Figure 2.19.

This exercise introduced you to another way of creating user flows using startActivityForResult. This can be very useful for carrying out a dedicated Task where you need a result before proceeding with the user's flow through the app. Next, you will explore launch modes and how they impact the flow of user journeys when building apps.

Intents, Tasks, and Launch Modes

Up until now, you have been using the standard behavior for creating Activities and moving from one Activity to the next. The flow you have been using is the default, and in most cases, this will be the one you choose to use. When you open the app from the launcher with the default behavior, it creates its own Task, and each Activity you create is added to a back stack, so when you open three Activities one after the other as part of your user's journey, pressing the back button three times will move the user back through the previous screens/Activities and then go back to the device's home screen, while still keeping the app open.

The launch mode for this type of Activity is called Standard; it is the default and doesn't need specifying in the Activity element of AndroidManifest.xml. Even if you launch the same Activity three times, one after the other, there will be three instances of the same activity that exhibit the behavior described previously.

For some apps, you may want to change this behavior. The scenario most commonly used that doesn't conform to this pattern is when you want to relaunch an Activity without creating a new separate instance. A common use case for this is when you have a home screen with a main menu and different news stories that the user can read. Once the user has gone through to an individual news story and then presses another news story title from the menu, when the user presses the back button, they will expect to return to the home screen and not the previous news story. The launch mode that can help here is called singleTop. If a singleTop Activity is at the top of the Task (top, in this context, means most recently added), when the same singleTop Activity is launched, then instead of creating a new Activity, it uses the same Activity and runs the onNewIntent callback. In the preceding scenario, this could then use the same activity to display a different news story. In this callback, you receive an intent, and you can then process this intent as you have done previously in onCreate.

There are two other launch modes to be aware of, called SingleTask and SingleInstance. These are not for general use and are only used for special scenarios. For both of these launch modes, only one Activity of this type can exist in the application and it is always at the root of its Task. If you launch an Activity with this launch mode, it will create a new Task. If it already exists, then it will route the intent through the onNewIntent call and not create another instance. The only difference between SingleTask and SingleInstance is that SingleInstance is the one and only Activity of its Task. No new Activities can be launched into its Task. In contrast, SingleTask does allow other Activities to be launched into its Task, but the SingleTask Activity is always at the root.

These launch modes can be added to the XML of AndroidManifest.xml or created programmatically by adding intent flags. The most common ones used are the following:

  • FLAG_ACTIVITY_NEW_TASK: Launches the Activity into a new Task.
  • FLAG_ACTIVITY_CLEAR_TASK: Clears the current Task, so finishes all Activities and launches the Activity at the root of the current Task.
  • FLAG_ACTIVITY_SINGLE_TOP: Replicates the launch mode of the launchMode="singleTop" XML.
  • FLAG_ACTIVITY_CLEAR_TOP: Removes all Activities that are above any other instances of the same activity. If this is launched on a standard launch mode Activity, then it will clear the Task down to the first existing instance of the same Activity, and then launch another instance of the same Activity. This will probably not be what you want, and you can launch this flag with the FLAG_ACTIVITY_SINGLE_TOP flag to clear all the activities down to the same instance of the Activity you are launching and not create a new instance, but instead route a new intent to the existing Activity. To create an Activity using these two intent flags, you would do the following:
    val intent = Intent(this, MainActivity::class.java).apply {
        flags = Intent.FLAG_ACTIVITY_CLEAR_TOP or
        Intent.FLAG_ACTIVITY_SINGLE_TOP
    }
    startActivity(intent)

If an intent launches an Activity with one or more of the intent flags specified in the preceding code block, then the launch mode specified overrides the one that is set in the AndroidManifest.xml file.

Intent flags can be combined in multiple ways. For more information, see the official documentation at https://developer.android.com/reference/android/content/Intent.

You'll explore the differences in the behavior of these two launch modes in the next exercise.

Exercise 2.06: Setting the Launch Mode of an Activity

This exercise has many different layout files and Activities to illustrate the two most commonly used launch modes. Please download the code from http://packt.live/2LFWo8t and then we will go through the exercise at http://packt.live/2XUo3Vk:

  1. Open up the activity_main.xml file and examine it.

    This illustrates a new concept when using layout files. If you have a layout file and you would like to include it in another layout, you can use the <include> XML element (have a look at the following snippet of the layout file):

    <include layout="@layout/letters"
        android:id="@+id/letters_layout"
        android:layout_width="wrap_content"
        android:layout_height="wrap_content"
        app:layout_constraintLeft_toLeftOf="parent"
        app:layout_constraintRight_toRightOf="parent"
        app:layout_constraintTop_toBottomOf="@id/      launch_mode_standard"/>
    <include layout="@layout/numbers"
        android:layout_width="wrap_content"
        android:layout_height="wrap_content"
        app:layout_constraintLeft_toLeftOf="parent"
        app:layout_constraintRight_toRightOf="parent"
        app:layout_constraintTop_toBottomOf="@id/      launch_mode_single_top"/> 

    The preceding layout uses the include XML element to include the two layout files: letters.xml and numbers.xml.

  2. Open up and inspect the letters.xml and numbers.xml files found in the res | layout folder. These are very similar and are only differentiated from the buttons they contain by the ID of the buttons themselves and the text label they display.
  3. Run the app and you will see the following screen:
    Figure 2.20: App displaying both the standard and single top modes

    Figure 2.20: App displaying both the standard and single top modes

    In order to demonstrate/illustrate the difference between standard and singleTop activity launch modes, you have to launch two or three activities one after the other.

  4. Open up MainActivity and examine the contents of the code block in onCreate(savedInstanceState: Bundle?) after the signature:
        val buttonClickListener = View.OnClickListener { view ->
            when (view.id) {
                R.id.letterA -> startActivity(Intent(this,               ActivityA::class.java))
                //Other letters and numbers follow the same pattern/flow
                else -> {
                    Toast.makeText(
                        this,
                        getString(R.string.unexpected_button_pressed),
                        Toast.LENGTH_LONG
                    )
                    .show()
                }
            }
        }
        findViewById<View>(R.id.letterA).setOnClickListener(buttonClickListener)
        //The buttonClickListener is set on all the number and letter views
    }

    The logic contained in the main Activity and the other activities is basically the same. It displays an Activity and allows the user to press a button to launch another Activity using the same logic of creating a ClickListener and setting it on the button you saw in Exercise 2.05, Retrieving a Result from an Activity.

  5. Open the AndroidManifest.xml file and you will see the following:
    <?xml version="1.0" encoding="utf-8"?>
    <manifest xmlns:android="http://schemas.android.com/apk/res/android"
        package="com.example.launchmodes">
        <application
            android:allowBackup="true"
            android:icon="@mipmap/ic_launcher"
            android:label="@string/app_name"
            android:roundIcon="@mipmap/ic_launcher_round"
            android:supportsRtl="true"
            android:theme="@style/Theme.LaunchModes">
            <activity android:name=".ActivityA"           android:launchMode="standard"/>
            <activity android:name=".ActivityB"           android:launchMode="standard"/>
            <activity android:name=".ActivityC"           android:launchMode="standard"/>
            <activity android:name=".ActivityOne"           android:launchMode="singleTop"/>
            <activity android:name=".ActivityTwo"           android:launchMode="singleTop"/>
            <activity android:name=".ActivityThree"           android:launchMode="singleTop"/>
            <activity android:name=".MainActivity">
                <intent-filter>
                    <action android:name=                  "android.intent.action.MAIN" />
                    <category android:name=                  "android.intent.category.LAUNCHER" />
                </intent-filter>
            </activity>
        </application>
    </manifest>

    You launch an Activity based on a button pressed on the main screen, but the letter and number activities have a different launch mode, which you can see specified in the AndroidManifest.xml file.

    The standard launch mode is specified here to illustrate the difference between standard and singleTop, but standard is the default and would be how the Activity is launched if the android:launchMode XML attribute was not present.

  6. Press one of the letters under the Standard heading and you will see the following screen (with A or letters C or B):
    Figure 2.21: The app displaying standard activity

    Figure 2.21: The app displaying standard activity

  7. Keep on pressing any of the letter buttons, which will launch another Activity. Logs have been added to show this sequence of launching activities. Here is the log after pressing 10 letter Activities randomly:
    2019-10-23 20:50:51.097 15281-15281/com.example.launchmodes D/MainActivity: onCreate
    2019-10-23 20:51:16.182 15281-15281/com.example.launchmodes D/Activity B: onCreate
    2019-10-23 20:51:18.821 15281-15281/com.example.launchmodes D/Activity B: onCreate
    2019-10-23 20:51:19.353 15281-15281/com.example.launchmodes D/Activity C: onCreate
    2019-10-23 20:51:20.334 15281-15281/com.example.launchmodes D/Activity A: onCreate
    2019-10-23 20:51:20.980 15281-15281/com.example.launchmodes D/Activity B: onCreate
    2019-10-23 20:51:21.853 15281-15281/com.example.launchmodes D/Activity B: onCreate
    2019-10-23 20:51:23.007 15281-15281/com.example.launchmodes D/Activity C: onCreate
    2019-10-23 20:51:23.887 15281-15281/com.example.launchmodes D/Activity B: onCreate
    2019-10-23 20:51:24.349 15281-15281/com.example.launchmodes D/Activity C: onCreate

    If you observe the preceding log, every time the user presses a character button in launch mode, a new instance of the character Activity is launched and added to the back stack.

  8. Close the app, making sure it is not backgrounded (or in the recents/overview menu) but is actually closed, and then open the app again and press one of the number buttons under the Single Top heading:
    Figure 2.22: The app displaying the Single Top activity

    Figure 2.22: The app displaying the Single Top activity

  9. Press the number buttons 10 times, but make sure you press the same number button at least twice sequentially before pressing another number button.

    The logs you should see in the Logcat window (View | Tool Windows | Logcat) should be similar to the following:

    2019-10-23 21:04:50.201 15549-15549/com.example.launchmodes D/MainActivity: onCreate
    2019-10-23 21:05:04.503 15549-15549/com.example.launchmodes D/Activity 2: onCreate
    2019-10-23 21:05:08.262 15549-15549/com.example.launchmodes D/Activity 3: onCreate
    2019-10-23 21:05:09.133 15549-15549/com.example.launchmodes D/Activity 3: onNewIntent
    2019-10-23 21:05:10.684 15549-15549/com.example.launchmodes D/Activity 1: onCreate
    2019-10-23 21:05:12.069 15549-15549/com.example.launchmodes D/Activity 2: onNewIntent
    2019-10-23 21:05:13.604 15549-15549/com.example.launchmodes D/Activity 3: onCreate
    2019-10-23 21:05:14.671 15549-15549/com.example.launchmodes D/Activity 1: onCreate
    2019-10-23 21:05:27.542 15549-15549/com.example.launchmodes D/Activity 3: onNewIntent
    2019-10-23 21:05:31.593 15549-15549/com.example.launchmodes D/Activity 3: onNewIntent
    2019-10-23 21:05:38.124 15549-15549/com.example.launchmodes D/Activity 1: onCreate

You'll notice that instead of calling onCreate when you pressed the same button again, the Activity is not created, but a call is made to onNewIntent. If you press the back button, you'll notice that it will take you less than 10 clicks to back out of the app and return to the home screen, reflecting the fact that 10 activities have not been created.

Activity 2.01: Creating a Login Form

The aim of this activity is to create a login form with username and password fields. Once the values in these fields are submitted, check these entered values against hardcoded values and display a welcome message if they match, or an error message if they don't, and return the user to the login form. The steps needed to achieve this are the following:

  1. Create a form with username and password EditText Views and a LOGIN button.
  2. Add a ClickListener interface to the button to react to a button press event.
  3. Validate that the form fields are filled in.
  4. Check the submitted username and password fields against the hardcoded values.
  5. Display a welcome message with the username if successful and hide the form.
  6. Display an error message if not successful and redirect the user back to the form.

There are a few possible ways that you could go about trying to complete this activity. Here are three ideas for approaches you could adopt:

  • Use a singleTop Activity and send an intent to route to the same Activity to validate the credentials.
  • Use a standard Activity to pass a username and password to another Activity and validate the credentials.
  • Use startActivityForResult to carry out the validation in another Activity and then return the result.

The completed app, upon its first loading, should look as in Figure 2.23:

Figure 2.23: The app display when first loaded

Figure 2.23: The app display when first loaded

Note

The solution to this activity can be found at: http://packt.live/3sKj1cp.

The source code for all the exercises and the activity in this chapter is located at http://packt.live/3o12sp4.

Summary

In this chapter, you have covered a lot of the groundwork of how your application interacts with the Android framework, from the Activity lifecycle callbacks to retaining the state in your activities, navigating from one screen to another, and how intents and launch modes make this happen. These are core concepts that you need to understand in order to move on to more advanced topics.

In the next chapter, you will be introduced to fragments and how they fit into the architecture of your application, as well as exploring more of the Android resources framework.

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Key benefits

  • Build apps with Kotlin, Google’s preferred programming language for Android development
  • Unlock solutions to development challenges with guidance from experienced Android professionals
  • Improve your apps by adding valuable features that make use of advanced functionality

Description

Are you keen to get started building Android 11 apps, but don’t know where to start? How to Build Android Apps with Kotlin is a comprehensive guide that will help kick-start your Android development practice. This book starts with the fundamentals of app development, enabling you to utilize Android Studio and Kotlin to get started building Android projects. You'll learn how to create apps and run them on virtual devices through guided exercises. Progressing through the chapters, you'll delve into Android’s RecyclerView to make the most of lists, images, and maps, and see how to fetch data from a web service. Moving ahead, you'll get to grips with testing, learn how to keep your architecture clean, understand how to persist data, and gain basic knowledge of the dependency injection pattern. Finally, you'll see how to publish your apps on the Google Play store. You'll work on realistic projects that are split up into bitesize exercises and activities, allowing you to challenge yourself in an enjoyable and attainable way. You'll build apps to create quizzes, read news articles, check weather reports, store recipes, retrieve movie information, and remind you where you parked your car. By the end of this book, you'll have the skills and confidence to build your own creative Android applications using Kotlin.

Who is this book for?

If you want to build your own Android applications using Kotlin but are unsure of how to begin, then this book is for you. To easily grasp the concepts in this book, it is recommended that you already have a basic understanding of Kotlin, or experience in a similar programming language and a willingness to brush up on Kotlin before you start.

What you will learn

  • Create maintainable and scalable apps using Kotlin
  • Understand the Android development lifecycle
  • Simplify app development with Google architecture components
  • Use standard libraries for dependency injection and data parsing
  • Apply the repository pattern to retrieve data from outside sources
  • Publish your app on the Google Play store

Product Details

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Publication date : Feb 26, 2021
Length: 794 pages
Edition : 1st
Language : English
ISBN-13 : 9781838988296
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Product Details

Publication date : Feb 26, 2021
Length: 794 pages
Edition : 1st
Language : English
ISBN-13 : 9781838988296
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Table of Contents

16 Chapters
1. Creating Your First App Chevron down icon Chevron up icon
2. Building User Screen Flows Chevron down icon Chevron up icon
3. Developing the UI with Fragments Chevron down icon Chevron up icon
4. Building App Navigation Chevron down icon Chevron up icon
5. Essential Libraries: Retrofit, Moshi, and Glide Chevron down icon Chevron up icon
6. RecyclerView Chevron down icon Chevron up icon
7. Android Permissions and Google Maps Chevron down icon Chevron up icon
8. Services, WorkManager, and Notifications Chevron down icon Chevron up icon
9. Unit Tests and Integration Tests with JUnit, Mockito, and Espresso Chevron down icon Chevron up icon
10. Android Architecture Components Chevron down icon Chevron up icon
11. Persisting Data Chevron down icon Chevron up icon
12. Dependency Injection with Dagger and Koin Chevron down icon Chevron up icon
13. RxJava and Coroutines Chevron down icon Chevron up icon
14. Architecture Patterns Chevron down icon Chevron up icon
15. Animations and Transitions with CoordinatorLayout and MotionLayout Chevron down icon Chevron up icon
16. Launching Your App on Google Play Chevron down icon Chevron up icon

Customer reviews

Top Reviews
Rating distribution
Full star icon Full star icon Full star icon Full star icon Half star icon 4.6
(32 Ratings)
5 star 75%
4 star 12.5%
3 star 6.3%
2 star 6.3%
1 star 0%
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Kyle Jablonski May 29, 2021
Full star icon Full star icon Full star icon Full star icon Full star icon 5
This book will take you from interest to expert. There is theory to support the exercise in each chapter solidifying a baseline for your android development. As you build up your knowledge/experience moving further in the book advanced topics will help you go from capable to pragmatic. You will learn to put more thought into the design/architecture of your app to promote maintainability, scalability and testing. Coupled with theory & fundamentals this is a go to book for anyone learning to break into Android development or improve their existing understanding of developing better mobile apps for Android.
Amazon Verified review Amazon
J. Peters Nov 14, 2022
Full star icon Full star icon Full star icon Full star icon Full star icon 5
Already answered a lot of questions about app testing. Well written
Amazon Verified review Amazon
Amazon Customer Mar 17, 2021
Full star icon Full star icon Full star icon Full star icon Full star icon 5
This is a good book. I like the fact that they decided to include a chapter on testing your application. I am a developer who really do not do a lot of testing, but by taking this book to read, I can see how testing can make your application more robust at the time of build.I recommend this book to people. You will lend a lot if you really get into it, you might get some advance topics if you are too new, but you can still follow along.
Amazon Verified review Amazon
Jim Jupiter Jul 13, 2021
Full star icon Full star icon Full star icon Full star icon Full star icon 5
Kotlin and Android - i like this book
Amazon Verified review Amazon
gaetano Mar 07, 2021
Full star icon Full star icon Full star icon Full star icon Full star icon 5
Great book for Android beginners and experts! I love the hand-on approach, with easy to follow step-by-step examples, and explanatory images.Although the book is practical and beginners focused, there are several advanced topics: Dependency Injection (with Dagger and Koin), RxJava and Coroutines, even the brand new MotionLayout!
Amazon Verified review Amazon
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