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Kotlin - Working with the Floating Action Button and Snackbar

17,753 bytes added, 15:27, 27 November 2017
Created page with "One of the objectives of this chapter is to provide an overview of the concepts of material design. Originally introduced as part of Android 5.0, material design is a set of d..."
One of the objectives of this chapter is to provide an overview of the concepts of material design. Originally introduced as part of Android 5.0, material design is a set of design guidelines that dictate how the Android user interface, and that of the apps running on Android, appear and behave.

As part of the implementation of the material design concepts, Google also introduced the Android Design Support Library. This library contains a number of different components that allow many of the key features of material design to be built into Android applications. Two of these components, the floating action button and Snackbar, will also be covered in this chapter prior to introducing many of the other components in subsequent chapters.

== The Material Design ==

The overall appearance of the Android environment is defined by the principles of material design. Material design was created by the Android team at Google and dictates that the elements that make up the user interface of Android and the apps that run on it appear and behave in a certain way in terms of behavior, shadowing, animation and style. One of the tenets of the material design is that the elements of a user interface appear to have physical depth and a sense that items are constructed in layers of physical material. A button, for example, appears to be raised above the surface of the layout in which it resides through the use of shadowing effects. Pressing the button causes the button to flex and lift as though made of a thin material that ripples when released.

Material design also dictates the layout and behavior of many standard user interface elements. A key example is the way in which the app bar located at the top of the screen should appear and the way in which it should behave in relation to scrolling activities taking place within the main content of the activity.

In fact, material design covers a wide range of areas from recommended color styles to the way in which objects are animated. A full description of the material design concepts and guidelines can be found online at the following link and is recommended reading for all Android developers:

[https://www.google.com/design/spec/material-design/introduction.html https://www.google.com/design/spec/material-design/introduction.html]

== The Design Library ==

Many of the building blocks needed to implement Android applications that adopt the principles of material design are contained within the Android Design Support Library. This library contains a collection of user interface components that can be included in Android applications to implement much of the look, feel and behavior of material design. Two of the components from this library, the floating action button and Snackbar, will be covered in this chapter, while others will be introduced in later chapters.

== The Floating Action Button (FAB) ==

The floating action button is a button which appears to float above the surface of the user interface of an app and is generally used to promote the most common action within a user interface screen. A floating action button might, for example, be placed on a screen to allow the user to add an entry to a list of contacts or to send an email from within the app. Figure 42-1, for example, highlights the floating action button that allows the user to add a new contact within the standard Android Contacts app:


[[File:]]


To conform with the material design guidelines, there are a number of rules that should be followed when using floating action buttons. Floating action buttons must be circular and can be either 56 x 56dp (Default) or 40 x 40dp (Mini) in size. The button should be positioned a minimum of 16dp from the edge of the screen on phones and 24dp on desktops and tablet devices. Regardless of the size, the button must contain an interior icon that is 24x24dp in size and it is recommended that each user interface screen have only one floating action button.

Floating action buttons can be animated or designed to morph into other items when touched. A floating action button could, for example, rotate when tapped or morph into another element such as a toolbar or panel listing related actions.

== The Snackbar ==

The Snackbar component provides a way to present the user with information in the form of a panel that appears at the bottom of the screen as shown in Figure 42-2. Snackbar instances contain a brief text message and an optional action button which will perform a task when tapped by the user. Once displayed, a Snackbar will either timeout automatically or can be removed manually by the user via a swiping action. During the appearance of the Snackbar the app will continue to function and respond to user interactions in the normal manner.


[[File:]]


In the remainder of this chapter an example application will be created that makes use of the basic features of the floating action button and Snackbar to add entries to a list of items.

== Creating the Example Project ==

Create a new project in Android Studio, entering FabExample into the Application name field and ebookfrenzy.com as the Company Domain setting before clicking on the Next button.

On the form factors screen, enable the Phone and Tablet option and set the minimum SDK setting to API 14: Android 4.0 (IceCreamSandwich).

Although it is possible to manually add a floating action button to an activity, it is much easier to use the Basic Activity template which includes a floating action button by default. Continue to proceed through the screens, therefore, requesting the creation of a Basic Activity named FabExampleActivity with corresponding layout and menu files named activity_fab_example and menu_fab_example respectively.

Click on the Finish button to initiate the project creation process.

== Reviewing the Project ==

Since the Basic Activity template was selected, the activity contains two layout files. The activity_fab_example.xml file consists of a CoordinatorLayout manager containing entries for an app bar, a toolbar and a floating action button.

The content_fab_example.xml file represents the layout of the content area of the activity and contains a ConstraintLayout instance and a TextView. This file is embedded into the activity_fab_example.xml file via the following include directive:

<pre>
<include layout="@layout/content_fab_example" />
</pre>

The floating action button element within the activity_fab_example.xml file reads as follows:

<pre>
<android.support.design.widget.FloatingActionButton 
    android:id="@+id/fab"
    android:layout_width="wrap_content" 
    android:layout_height="wrap_content"
    android:layout_gravity="bottom|end" 
    android:layout_margin="@dimen/fab_margin"
    android:src="@android:drawable/ic_dialog_email" />
</pre>

This declares that the button is to appear in the bottom right-hand corner of the screen with margins represented by the fab_margin identifier in the values/dimens.xml file (which in this case is set to 16dp). The XML further declares that the interior icon for the button is to take the form of the standard drawable built-in email icon.

The blank template has also configured the floating action button to display a Snackbar instance when tapped by the user. The code to implement this can be found in the onCreate() method of the FabExampleActivity.kt file and reads as follows:

<pre>
fab.setOnClickListener { view ->
    Snackbar.make(view, "Replace with your own action", Snackbar.LENGTH_LONG)
            .setAction("Action", null).show()
}
</pre>

The code obtains a reference to the floating action button via the button’s ID and adds to it an onClickListener handler to be called when the button is tapped. This method simply displays a Snackbar instance configured with a message but no actions.

Finally, open the module level build.gradle file (Gradle Scripts -> build.gradle (Module: App)) and note that the Android design support library has been added as a dependency:
implementation 'com.android.support:design:26.1.0'

When the project is compiled and run the floating action button will appear at the bottom of the screen as shown in Figure 42-3:


[[File:]]


Tapping the floating action button will trigger the onClickListener handler method causing the Snackbar to appear at the bottom of the screen:


[[File:]]


When the Snackbar appears on a narrower device (as is the case in Figure 42-4 above) note that the floating action button is moved up to make room for the Snackbar to appear. This is handled for us automatically by the CoordinatorLayout container in the activity_fab_example.xml layout resource file.

== Changing the Floating Action Button ==

Since the objective of this example is to configure the floating action button to add entries to a list, the email icon currently displayed on the button needs to be changed to something more indicative of the action being performed. The icon that will be used for the button is named ic_add_entry.png and can be found in the project_icons folder of the sample code download available from the following URL:

[http://www.ebookfrenzy.com/retail/as30kotlin/index.php http://www.ebookfrenzy.com/retail/as30kotlin/index.php]

Locate this image in the file system navigator for your operating system and copy the image file. Right-click on the app -> res -> drawable entry in the Project tool window and select Paste from the menu to add the file to the folder:


[[File:]]


Next, edit the activity_fab_example.xml file and change the image source for the icon from @android:drawable/ic_dialog_email to @drawable/ic_add_entry as follows:

<pre>
<android.support.design.widget.FloatingActionButton 
    android:id="@+id/fab"
    android:layout_width="wrap_content" 
    android:layout_height="wrap_content"
    android:layout_gravity="bottom|end" 
    android:layout_margin="@dimen/fab_margin"
    android:src="@drawable/ic_add_entry" />
</pre>

Within the layout preview, the interior icon for the button will have changed to a plus sign.

The background color of the floating action button is defined by the accentColor property of the prevailing theme used by the application. The color assigned to this value is declared in the colors.xml file located under app -> res -> values in the Project tool window. Instead of editing this XML file directly a better approach is to use the Android Studio Theme Editor.

Select the Tools -> Android -> Theme Editor menu option to display the Theme Editor as illustrated in Figure 42-6:


[[File:]]


Click on the color swatch for the colorAccent setting (highlighted in the figure above) to display the color resource dialog. Within the color resource dialog, enter holo_orange_light into the search field and select the color from the list:


[[File:]]


Click on the OK button to apply the new accentColor setting and return to the activity_fab_example.xml and verify that the floating action button now appears with an orange background.

== Adding the ListView to the Content Layout ==

The next step in this tutorial is to add the ListView instance to the content_fab_example.xml file. The ListView class provides a way to display items in a list format and can be found in the Containers section of the Layout Editor tool palette.

Load the content_fab_example.xml file into the Layout Editor tool, select Design mode if necessary, and select and delete the default TextView object. Locate the ListView object in the Containers category of the palette and, with autoconnect mode enabled, drag and drop it onto the center of the layout canvas. Select the ListView object and change the ID to listView within the Attributes tool window. The Layout Editor should have sized the ListView to fill the entire container and established constraints on all four edges as illustrated in Figure 42-8:


[[File:]]

== Adding Items to the ListView ==

Each time the floating action button is tapped by the user, a new item will be added to the ListView in the form of the prevailing time and date. To achieve this, some changes need to be made to the FabExampleActivity.kt file.

Begin by modifying the onCreate() method to obtain a reference to the ListView instance and to initialize an adapter instance to allow us to add items to the list in the form of an array:

<pre>
import android.os.Bundle
import android.support.design.widget.Snackbar
import android.support.v7.app.AppCompatActivity
import android.view.Menu
import android.view.MenuItem
import android.widget.ArrayAdapter
 
import kotlinx.android.synthetic.main.activity_fab_example.*
import kotlinx.android.synthetic.main.content_fab_example.*
import java.util.ArrayList
 
class FabExampleActivity : AppCompatActivity() {
 
    var listItems = ArrayList<String>()
    var adapter: ArrayAdapter<String>? = null
 
    override fun onCreate(savedInstanceState: Bundle?) {
        super.onCreate(savedInstanceState)
        setContentView(R.layout.activity_fab_example)
        setSupportActionBar(toolbar)
 
        adapter = ArrayAdapter(this,
                android.R.layout.simple_list_item_1,
                listItems)
 
        listView.adapter = adapter
        
        fab.setOnClickListener { view ->
            Snackbar.make(view, "Replace with your own action", 
               Snackbar.LENGTH_LONG)
                    .setAction("Action", null).show()
        }
    }
.
.
}
</pre>

The ListView needs an array of items to display, an adapter to manage the items in that array and a layout definition to dictate how items are to be presented to the user.

In the above code changes, the items are stored in an ArrayList instance assigned to an adapter that takes the form of an ArrayAdapter. The items added to the list will be displayed in the ListView using the simple_list_item_1 layout, a built-in layout that is provided with Android to display simple string based items in a ListView instance.

Next, edit the onClickListener code for the floating action button to display a different message in the Snackbar and to call a method to add an item to the list:

<pre>
fab.setOnClickListener { view ->
    addListItem()
    Snackbar.make(view, "Item added to list", Snackbar.LENGTH_LONG)
            .setAction("Action", null).show()
}
</pre>

Remaining within the FabExampleActivity.kt file, add the addListItem() method as follows:

<pre>
package com.ebookfrenzy.fabexample
.
.
import java.text.SimpleDateFormat
import java.util.*
 
class FabExampleActivity : AppCompatActivity() {
.
.
    private fun addListItem() {
        val dateformat: SimpleDateFormat = 
                  SimpleDateFormat("HH:mm:ss MM/dd/yyyy", Locale.US)
        listItems.add(dateformat.format(Date()))
        adapter?.notifyDataSetChanged()
    }
.
.
}
</pre>

The code in the addListItem() method identifies and formats the current date and time and adds it to the list items array. The array adapter assigned to the ListView is then notified that the list data has changed, causing the ListView to update to display the latest list items.

Compile and run the app and test that tapping the floating action button adds new time and date entries to the ListView, displaying the Snackbar each time as shown in Figure 42-9:


[[File:]]

== Adding an Action to the Snackbar ==

The final task in this project is to add an action to the Snackbar that allows the user to undo the most recent addition to the list. Edit the FabExampleActivity.kt file and modify the Snackbar creation code to add an action titled “Undo” configured with an onClickListener named undoOnClickListener:

<pre>
fab.setOnClickListener { view ->
    addListItem()
    Snackbar.make(view, "Item added to list", Snackbar.LENGTH_LONG)
            .setAction("Undo", undoOnClickListener).show()
}
</pre>

Within the FabExampleActivity.kt file add the listener handler:

<pre>
var undoOnClickListener: View.OnClickListener = View.OnClickListener { view ->
    listItems.removeAt(listItems.size - 1)
    adapter?.notifyDataSetChanged()
    Snackbar.make(view, "Item removed", Snackbar.LENGTH_LONG)
            .setAction("Action", null).show()
}
</pre>

The code in the onClick method identifies the location of the last item in the list array and removes it from the list before triggering the list view to perform an update. A new Snackbar is then displayed indicating that the last item has been removed from the list.

Run the app once again and add some items to the list. On the final addition, tap the Undo button in the Snackbar (Figure 42-10) to remove the last item from the list:


[[File:]]


It is also worth noting that the Undo button appears using the same color assigned to the accentColor property via the Theme Editor earlier in the chapter.

== Summary ==

This chapter has provided a general overview of material design, the floating action button and Snackbar before working through an example project that makes use of these features

Both the floating action button and the Snackbar are part of the material design approach to user interface implementation in Android. The floating action button provides a way to promote the most common action within a particular screen of an Android application. The Snackbar provides a way for an application to both present information to the user and also allow the user to take action upon it.