Certified Android Apps Developer Android Using Dialogs

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Android Using Dialogs


A dialog is usually a small window that appears in front of the current Activity. The underlying Activity loses focus and the dialog accepts all user interaction. Dialogs are normally used for notifications that should interupt the user and to perform short tasks that directly relate to the application in progress (such as a progress bar or a login prompt).

The Dialogclass is the base class for creating dialogs. However, you typically should not instantiate a Dialogdirectly. Instead, you should use one of the following subclasses:

AlertDialog
A dialog that can manage zero, one, two, or three buttons, and/or a list of selectable items that can include checkboxes or radio buttons. The AlertDialog is capable of constructing most dialog user interfaces and is the suggested dialog type. See Creating an AlertDialog below.
ProgressDialog
A dialog that displays a progress wheel or progress bar. Because it's an extension of the AlertDialog, it also supports buttons. See Creating a ProgressDialog below.
DatePickerDialog
A dialog that allows the user to select a date. See the Hello DatePicker tutorial.
TimePickerDialog
A dialog that allows the user to select a time. See the Hello TimePicker tutorial.

If you would like to customize your own dialog, you can extend the base Dialogobject or any of the subclasses listed above and define a new layout. See the section on Creating a Custom Dialog below.

Dialog Design

For design guidelines, read Android Design's Dialogs guide.

Showing a Dialog


A dialog is always created and displayed as a part of an Activity. You should normally create dialogs from within your Activity's onCreateDialog(int)callback method. When you use this callback, the Android system automatically manages the state of each dialog and hooks them to the Activity, effectively making it the "owner" of each dialog. As such, each dialog inherits certain properties from the Activity. For example, when a dialog is open, the Menu key reveals the options menu defined for the Activity and the volume keys modify the audio stream used by the Activity.

Note: If you decide to create a dialog outside of the onCreateDialog()method, it will not be attached to an Activity. You can, however, attach it to an Activity with setOwnerActivity(Activity).

When you want to show a dialog, call showDialog(int)and pass it an integer that uniquely identifies the dialog that you want to display.

When a dialog is requested for the first time, Android calls onCreateDialog(int)from your Activity, which is where you should instantiate the Dialog. This callback method is passed the same ID that you passed to showDialog(int). After you create the Dialog, return the object at the end of the method.

Before the dialog is displayed, Android also calls the optional callback method onPrepareDialog(int, Dialog). Define this method if you want to change any properties of the dialog each time it is opened. This method is called every time a dialog is opened, whereas onCreateDialog(int)is only called the very first time a dialog is opened. If you don't define onPrepareDialog(), then the dialog will remain the same as it was the previous time it was opened. This method is also passed the dialog's ID, along with the Dialog object you created in onCreateDialog().

The best way to define the onCreateDialog(int)and onPrepareDialog(int, Dialog)callback methods is with a switch statement that checks the id parameter that's passed into the method. Each case should check for a unique dialog ID and then create and define the respective Dialog. For example, imagine a game that uses two different dialogs: one to indicate that the game has paused and another to indicate that the game is over. First, define an integer ID for each dialog:

static final int DIALOG_PAUSED_ID = 0;
static final int DIALOG_GAMEOVER_ID = 1;

Then, define the onCreateDialog(int)callback with a switch case for each ID:

protected Dialog onCreateDialog(int id) {
    Dialog dialog;
    switch(id) {
    case DIALOG_PAUSED_ID:
        // do the work to define the pause Dialog
        break;
    case DIALOG_GAMEOVER_ID:
        // do the work to define the game over Dialog
        break;
    default:
        dialog = null;
    }
    return dialog;
}

Note: In this example, there's no code inside the case statements because the procedure for defining your Dialog is outside the scope of this section. See the section below about Creating an AlertDialog, offers code suitable for this example.

When it's time to show one of the dialogs, call showDialog(int)with the ID of a dialog:

showDialog(DIALOG_PAUSED_ID);

Dismissing a Dialog


When you're ready to close your dialog, you can dismiss it by calling dismiss()on the Dialog object. If necessary, you can also call dismissDialog(int)from the Activity, which effectively calls dismiss()on the Dialog for you.

If you are using onCreateDialog(int)to manage the state of your dialogs (as discussed in the previous section), then every time your dialog is dismissed, the state of the Dialog object is retained by the Activity. If you decide that you will no longer need this object or it's important that the state is cleared, then you should call removeDialog(int). This will remove any internal references to the object and if the dialog is showing, it will dismiss it.

Using dismiss listeners

If you'd like your application to perform some procedures the moment that a dialog is dismissed, then you should attach an on-dismiss listener to your Dialog.

First define the DialogInterface.OnDismissListenerinterface. This interface has just one method, onDismiss(DialogInterface), which will be called when the dialog is dismissed. Then simply pass your OnDismissListener implementation to setOnDismissListener().

However, note that dialogs can also be "cancelled." This is a special case that indicates the dialog was explicitly cancelled by the user. This will occur if the user presses the "back" button to close the dialog, or if the dialog explicitly calls cancel()(perhaps from a "Cancel" button in the dialog). When a dialog is cancelled, the OnDismissListener will still be notified, but if you'd like to be informed that the dialog was explicitly cancelled (and not dismissed normally), then you should register an DialogInterface.OnCancelListenerwith setOnCancelListener().

Creating an AlertDialog


An AlertDialogis an extension of the Dialogclass. It is capable of constructing most dialog user interfaces and is the suggested dialog type. You should use it for dialogs that use any of the following features:

  • A title
  • A text message
  • One, two, or three buttons
  • A list of selectable items (with optional checkboxes or radio buttons)

To create an AlertDialog, use the AlertDialog.Buildersubclass. Get a Builder with AlertDialog.Builder(Context)and then use the class's public methods to define all of the AlertDialog properties. After you're done with the Builder, retrieve the AlertDialog object with create().

The following topics show how to define various properties of the AlertDialog using the AlertDialog.Builder class. If you use any of the following sample code inside your onCreateDialog()callback method, you can return the resulting Dialog object to display the dialog.

Adding buttons

To create an AlertDialog with side-by-side buttons like the one shown in the screenshot to the right, use the set...Button()methods:

AlertDialog.Builder builder = new AlertDialog.Builder(this);
builder.setMessage("Are you sure you want to exit?")
       .setCancelable(false)
       .setPositiveButton("Yes", new DialogInterface.OnClickListener() {
           public void onClick(DialogInterface dialog, int id) {
                MyActivity.this.finish();
           }
       })
       .setNegativeButton("No", new DialogInterface.OnClickListener() {
           public void onClick(DialogInterface dialog, int id) {
                dialog.cancel();
           }
       });
AlertDialog alert = builder.create();

First, add a message for the dialog with setMessage(CharSequence). Then, begin method-chaining and set the dialog to be not cancelable (so the user cannot close the dialog with the back button) with setCancelable(boolean). For each button, use one of the set...Button()methods, such as setPositiveButton(), that accepts the name for the button and a DialogInterface.OnClickListenerthat defines the action to take when the user selects the button.

Note: You can only add one of each button type to the AlertDialog. That is, you cannot have more than one "positive" button. This limits the number of possible buttons to three: positive, neutral, and negative. These names are technically irrelevant to the actual functionality of your buttons, but should help you keep track of which one does what.

Adding a list

To create an AlertDialog with a list of selectable items like the one shown to the right, use the setItems()method:

final CharSequence[] items = {"Red", "Green", "Blue"};

AlertDialog.Builder builder = new AlertDialog.Builder(this);
builder.setTitle("Pick a color");
builder.setItems(items, new DialogInterface.OnClickListener() {
    public void onClick(DialogInterface dialog, int item) {
        Toast.makeText(getApplicationContext(), items[item], Toast.LENGTH_SHORT).show();
    }
});
AlertDialog alert = builder.create();

First, add a title to the dialog with setTitle(CharSequence). Then, add a list of selectable items with setItems(), which accepts the array of items to display and a DialogInterface.OnClickListenerthat defines the action to take when the user selects an item.

Adding checkboxes and radio buttons

To create a list of multiple-choice items (checkboxes) or single-choice items (radio buttons) inside the dialog, use the setMultiChoiceItems()and setSingleChoiceItems()methods, respectively. If you create one of these selectable lists in the onCreateDialog()callback method, Android manages the state of the list for you. As long as the Activity is active, the dialog remembers the items that were previously selected, but when the user exits the Activity, the selection is lost.

Note: To save the selection when the user leaves or pauses the Activity, you must properly save and restore the setting throughout the activity lifecycle. To permanently save the selections, even when the Activity process is completely shutdown, you need to save the settings with one of the Data Storage techniques.

To create an AlertDialog with a list of single-choice items like the one shown to the right, use the same code from the previous example, but replace the setItems()method with setSingleChoiceItems():

final CharSequence[] items = {"Red", "Green", "Blue"};

AlertDialog.Builder builder = new AlertDialog.Builder(this);
builder.setTitle("Pick a color");
builder.setSingleChoiceItems(items, -1, new DialogInterface.OnClickListener() {
    public void onClick(DialogInterface dialog, int item) {
        Toast.makeText(getApplicationContext(), items[item], Toast.LENGTH_SHORT).show();
    }
});
AlertDialog alert = builder.create();

The second parameter in the setSingleChoiceItems()method is an integer value for the checkedItem, which indicates the zero-based list position of the default selected item. Use "-1" to indicate that no item should be selected by default.

Creating a ProgressDialog


A ProgressDialogis an extension of the AlertDialogclass that can display a progress animation in the form of a spinning wheel, for a task with progress that's undefined, or a progress bar, for a task that has a defined progression. The dialog can also provide buttons, such as one to cancel a download.

Opening a progress dialog can be as simple as calling ProgressDialog.show(). For example, the progress dialog shown to the right can be easily achieved without managing the dialog through the onCreateDialog(int)callback, as shown here:

ProgressDialog dialog = ProgressDialog.show(MyActivity.this, "", 
                        "Loading. Please wait...", true);

The first parameter is the application Context, the second is a title for the dialog (left empty), the third is the message, and the last parameter is whether the progress is indeterminate (this is only relevant when creating a progress bar, which is discussed in the next section).

The default style of a progress dialog is the spinning wheel. If you want to create a progress bar that shows the loading progress with granularity, some more code is required, as discussed in the next section.

Showing a progress bar

To show the progression with an animated progress bar:

  1. Initialize the ProgressDialog with the class constructor, ProgressDialog(Context).
  2. Set the progress style to "STYLE_HORIZONTAL" with setProgressStyle(int)and set any other properties, such as the message.
  3. When you're ready to show the dialog, call show()or return the ProgressDialog from the onCreateDialog(int)callback.
  4. You can increment the amount of progress displayed in the bar by calling either setProgress(int)with a value for the total percentage completed so far or incrementProgressBy(int)with an incremental value to add to the total percentage completed so far.

For example, your setup might look like this:

ProgressDialog progressDialog;
progressDialog = new ProgressDialog(mContext);
progressDialog.setProgressStyle(ProgressDialog.STYLE_HORIZONTAL);
progressDialog.setMessage("Loading...");
progressDialog.setCancelable(false);

The setup is simple. Most of the code needed to create a progress dialog is actually involved in the process that updates it. You might find that it's necessary to create a second thread in your application for this work and then report the progress back to the Activity's UI thread with a Handlerobject. If you're not familiar with using additional threads with a Handler, see the example Activity below that uses a second thread to increment a progress dialog managed by the Activity.

Creating a Custom Dialog


If you want a customized design for a dialog, you can create your own layout for the dialog window with layout and widget elements. After you've defined your layout, pass the root View object or layout resource ID to setContentView(View).

For example, to create the dialog shown to the right:

  1. Create an XML layout saved as custom_dialog.xml:
     xmlns:android="https://schemas.android.com/apk/res/android"
                  android:id="@+id/layout_root"
                  android:orientation="horizontal"
                  android:layout_width="fill_parent"
                  android:layout_height="fill_parent"
                  android:padding="10dp"
                  >
         android:id="@+id/image"
                   android:layout_width="wrap_content"
                   android:layout_height="fill_parent"
                   android:layout_marginRight="10dp"
                   />
         android:id="@+id/text"
                  android:layout_width="wrap_content"
                  android:layout_height="fill_parent"
                  android:textColor="#FFF"
                  />
    

    This XML defines an ImageViewand a TextViewinside a LinearLayout.

  2. Set the above layout as the dialog's content view and define the content for the ImageView and TextView elements:
    Context mContext = getApplicationContext();
    Dialog dialog = new Dialog(mContext);
    
    dialog.setContentView(R.layout.custom_dialog);
    dialog.setTitle("Custom Dialog");
    
    TextView text = (TextView) dialog.findViewById(R.id.text);
    text.setText("Hello, this is a custom dialog!");
    ImageView image = (ImageView) dialog.findViewById(R.id.image);
    image.setImageResource(R.drawable.android);

    After you instantiate the Dialog, set your custom layout as the dialog's content view with setContentView(int), passing it the layout resource ID. Now that the Dialog has a defined layout, you can capture View objects from the layout with findViewById(int)and modify their content.

  3. That's it. You can now show the dialog as described in Showing A Dialog.

A dialog made with the base Dialog class must have a title. If you don't call setTitle(), then the space used for the title remains empty, but still visible. If you don't want a title at all, then you should create your custom dialog using the AlertDialogclass. However, because an AlertDialog is created easiest with the AlertDialog.Builderclass, you do not have access to the setContentView(int)method used above. Instead, you must use setView(View). This method accepts a Viewobject, so you need to inflate the layout's root View object from XML.

To inflate the XML layout, retrieve the LayoutInflaterwith getLayoutInflater()(or getSystemService()), and then call inflate(int, ViewGroup), where the first parameter is the layout resource ID and the second is the ID of the root View. At this point, you can use the inflated layout to find View objects in the layout and define the content for the ImageView and TextView elements. Then instantiate the AlertDialog.Builder and set the inflated layout for the dialog with setView(View).

Here's an example, creating a custom layout in an AlertDialog:

AlertDialog.Builder builder;
AlertDialog alertDialog;

Context mContext = getApplicationContext();
LayoutInflater inflater = (LayoutInflater) mContext.getSystemService(LAYOUT_INFLATER_SERVICE);
View layout = inflater.inflate(R.layout.custom_dialog,
                               (ViewGroup) findViewById(R.id.layout_root));

TextView text = (TextView) layout.findViewById(R.id.text);
text.setText("Hello, this is a custom dialog!");
ImageView image = (ImageView) layout.findViewById(R.id.image);
image.setImageResource(R.drawable.android);

builder = new AlertDialog.Builder(mContext);
builder.setView(layout);
alertDialog = builder.create();

Using an AlertDialog for your custom layout lets you take advantage of built-in AlertDialog features like managed buttons, selectable lists, a title, an icon and so on.

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