Android Development Tutorial (vpmprocks.blogspot.in)
android:minSdkVersion="9" />
encoding="utf-8"?>
- "button1"
type="id"/>
encoding="utf-8"?>
"http://schemas.android.com/apk/res/android"
android:layout_width="match_parent"
android:layout_height="match_parent"
android:orientation="vertical" >
"@+id/progressBar1"
style="?android:attr/progressBarStyleLarge"
android:layout_width="wrap_content"
android:layout_height="wrap_content"
android:layout_centerInParent="true"
/>
encoding="utf-8"?>
"http://schemas.android.com/apk/res/android"
android:layout_width="match_parent"
android:layout_height="match_parent"
android:fillViewport="true"
android:orientation="vertical" >
"@+id/TextView01"
android:layout_width="wrap_content"
android:layout_height="wrap_content"
android:paddingLeft="8dip"
android:paddingRight="8dip"
android:paddingTop="8dip"
android:text="This is a header"
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Development with Android and Eclipse
This tutorial describes how to create Android applications. It primary uses the Eclipse IDE for development. It is based on Android 4.2 (Jelly Bean).
Table of Contents
- 1. What is Android?
-
- 1.1. Android Operation System
- 1.2. Google Play (Android Market)
- 2. Android Development Tools
-
- 2.1. Android SDK
- 2.2. Android Development Tools
- 2.3. Dalvik Virtual Machine
- 2.4. How to develop Android Applications
- 3. Security and permissions
-
- 3.1. Security concept in Android
- 3.2. Permission concept in Android
- 4. Installation
-
- 4.1. Standalone Eclipse ADT installation
- 4.2. Other Eclipse installation options
- 5. Android virtual device - Emulator
-
- 5.1. What is the Android Emulator?
- 5.2. Google vs. Android AVD
- 5.3. Emulator Shortcuts
- 5.4. Parameter
- 6. Exercise: Create and run Android Virtual Device
-
- 6.1. Create AVD
- 6.2. Start your AVD
- 7. Conventions and API level
-
- 7.1. API version
- 7.2. Android project and package name
- 8. Exercise: Create Android application
-
- 8.1. Create Android project
- 8.2. Start emulator
- 8.3. Start application
- 9. Android applications and tasks
-
- 9.1. Application
- 9.2. Tasks across application borders
- 10. Base user interface components in Android
-
- 10.1. Activity
- 10.2. Fragments
- 10.3. Views and layout manager
- 10.4. Device configuration specific layouts
- 11. Other Android components
-
- 11.1. Intents
- 11.2. Services
- 11.3. ContentProvider
- 11.4. BroadcastReceiver
- 11.5. Home screen and lock screen widgets
- 11.6. Live Wallpapers
- 12. Android Application Architecture
-
- 12.1. AndroidManifest.xml
- 12.2. Activities and Lifecycle
- 12.3. Configuration Change
- 12.4. Context
- 13. Resources
-
- 13.1. Using resource files
- 13.2. Defining IDs
- 14. Using Resources
-
- 14.1. Reference to resources in code
- 14.2. Reference to resources in XML files
- 14.3. Activities and layouts
- 15. Assets
-
- 15.1. Whats are assets?
- 15.2. Accessing assets
- 16. Solving Android development problems
- 17. LogCat view
- 18. Using log statements and the LogCat view
- 19. Views
-
- 19.1. Available widgets in Android
- 19.2. View class
- 20. Exercise: Create a temperature converter
-
- 20.1. Install the demo application
- 20.2. Create Project
- 20.3. Create attributes
- 20.4. Add Views
- 20.5. Edit view properties
- 20.6. Change the Activity source code
- 20.7. Start Project
- 21. Starting an installed application
- 22. Layout Manager and ViewGroups
-
- 22.1. Available Layout Manager
- 22.2. FrameLayout
- 22.3. LinearLayout
- 22.4. RelativeLayout
- 22.5. GridLayout
- 22.6. ScrollView
- 23. Exercise: ScrollView
- 24. DDMS perspective and important views
-
- 24.1. DDMS - Dalvik Debug Monitor Server
- 24.2. File explorer
- 25. Deployment
-
- 25.1. Overview
- 25.2. Deployment via Eclipse
- 25.3. Export your application
- 25.4. Via external sources
- 25.5. Google Play (Market)
- 27. Questions and Discussion
- 28. Links and Literature
-
- 28.1. Source Code
- 28.2. Android Resources
- 28.3. vogella Resources
Android is an operating system based on the Linux Operating System. Android is primarily developed by Google.
Android applications consist of different components and can re-use components of other applications. This leads to the concept of a task in Android; an application can re-use other Android components to archive a task. For example you can trigger from your application another application which has itself registered with the Android system to handle photos. In this other application you select a photo and return to your application to use the selected photo.
The Android system supports background processing, provides a rich user interface library, supports 2-D and 3-D graphics using the OpenGL libraries, access to the file system and provides an embedded SQLite database.
Google offers the Google Play service in which programmers can offer their Android application to Android users. Google phones include the Google Play application which allows to install applications.
Google Play also offers an update service, e.g. if a programmer uploads a new version of his application to Google Play, this service will notify existing users that an update is available and allow to install it.
Google Play used to be called Android Market.
The Android Software Development Kit (Android SDK) contains the necessary tools to create, compile and package Android application. Most of these tools are command line based. he primary way to develop Android applications is based on the Java programming language.
The Android SDK also provides an Android device emulator, so that Android applications can be tested without a real Android phone. You can create Android virtual devices (AVD) via the Android SDK, which run in this emulator.
The Android SDK contains the Android debug bridge (adb) tool which allows to connect to an virtual or real Android device.
Google provides tools based on the Eclipse and IntelliJ IDE to develop new applications.
The Android Development Tools (ADT) are based on Eclipse to develop Android applications. ADT is a set of components (plug-ins) which extend the Eclipse IDE with Android development capabilities.
Google also supports an IDE called the Android Studio for creating Android applications. This IDE is based on the IntelliJ IDE.
Both tools contains all required functionalities to create, compile, debug and deploy Android applications from the IDE. They also allow the developer to create and start Android virtual devices for testing.
Both tools provide specialized editors for resources files, e.g. layout files. These editors allow to switch between the XML representation of the file and a preview mode of the user interface.
The Android system uses a special virtual machine, i.e. the Dalvik Virtual Machine to run Java based applications. Dalvik uses an own bytecode format which is different from Java bytecode.
Therefore you cannot directly run Java class files on Android, they need to get converted in the Dalvik bytecode format.
Android applications are primarily written in the Java programming language. The Java source files are converted to Java class files by the Java compiler.
The Android SDK contains a tool called dx which converts Java class files into a
.dex
(Dalvik Executable) file. All class files of one application are placed in one compressed .dex
file. During this conversion process redundant information in the class files are optimized in the .dex file. For example if the same String is found in different class files, the .dex
file contains only once reference of this String.
These dex files are therefore much smaller in size than the corresponding class files.
The
.dex
file and the resources of an Android project, e.g. the images and XML files, are packed into an.apk
(Android Package) file. The program aapt (Android Asset Packaging Tool) performs this packaging.
The resulting
.apk
file contains all necessary data to run the Android application and can be deployed to an Android device via the adb tool.
The Android Development Tools (ADT) performs these steps transparently to the user.
If you use the ADT tooling you press a button the whole Android application (
.apk
file) will be created and deployed.
During deployment on an Android device, the Android system will create a unique user and group ID for every Android application. Each application file is private to this generated user, e.g. other applications cannot access these files.
In addition each Android application will be started in its own process.
Therefore by means of the underlying Linux operating system, every Android application is isolated from other running applications.
If data should be shared, the application must do this explicitly, e.g. via a service or a content provider.
Android also contains a permission system. Android predefines permissions for certain tasks but every application can define additional permissions.
An Android application declare its required permissions in its
AndroidManifest.xml
configuration file. For example an application may declare that it requires access to the Internet.
Permissions have different levels. Some permissions are automatically granted by the Android system, some are automatically rejected.
In most cases the requested permissions will be presented to the user before installation of the application. The user needs to decide if these permissions are given to the application.
If the user denies a permission required by the application, this application cannot be installed. The check of the permission is only performed during installation, permissions cannot be denied or granted after the installation.
Not all users pay attention to the required permissions during installation. But some users do and they write negative reviews on Google Play.
Google provides a pre-packaged and configured Eclipse based Android development environment. Under the following URL you find an archive file which includes all required tools for Android development: Getting the Android SDK .
The Android SDK is 32bit, therefore on a 64bit Linux system you need to have the package
ia32-libs
installed. For Ubuntu you can do this via the following command.apt-get install ia32-libs
Please check your distribution documentation, if you are using a different flavor of Linux.
The simplest way to start Android development with Eclipse is to download a full packaged pre-configured Eclipse as described in Section 4.1.1, “Download”. It is also possible to update an existing Eclipse installation. Please see Android installation for a detailed description
The Android Development Tools (ADT) include an emulator to run an Android system. The emulator behaves like a real Android device (in most cases) and allows you to test your application without having a real device.
You can configure the version of the Android system you would like to run, the size of the SD card, the screen resolution and other relevant settings. You can define several of them with different configurations.
These devices are called Android Virtual Device and you can start several in parallel.
During the creation of an AVD you decide if you want an Android device or a Google device.
An AVD created for Android will contain the programs from the Android Open Source Project. An AVD created for the Google API's will also contain several Google applications, most notable the Google Maps application.
If you want to use functionality which is only provided via the Google API's, e.g. Google Maps you must run this application on an AVD with Google API's.
The following shortcuts are useful for working with the emulator.
Alt+Enter Maximizes the emulator. Nice for demos.
Ctrl+F11 changes the orientation of the emulator.
F8 Turns network on / off.
The graphics of the emulator can use the native GPU of the computer. This makes the rendering in the emulator very fast. To enable this, add the
GPU Emulation
property to the device configuration and set it to true
.
You can also set the
Enabled
flag for Snapshots. This will save the state of the emulator and will let it start much faster. Unfortunately currently native GPU rendering and Snapshots do not work together.
Android devices do not have to have hardware button. If you want to create such an AVD, add the
Hardware Back/Home keys
property to the device configuration and set it to false
.
Define a new Android Virtual Device (ADV) with open the AVD Manager via
→ and press the button.
Enter values similar to the following screenshot.
Afterwards press the
button. This will create the AVD configuration and display it under the list of available virtual devices.
The tutorials of this document have been developed and tested with Android 4.2, API Level 17. Please use this version for all tutorials in this tutorial. Higher versions of the API level should also work. A lower version of the Android API might also work, but if you face issues, try the recommended version.
The base package for the projects is always the same as the project name, e.g. if you are asked to create a project called de.vogella.android.example.test, then the corresponding package name isde.vogella.android.example.test.
The application name, which must be entered on the Android project generation wizard, will not be predefined. Choose a name you like.
In this exercise you create a simple Android project and run it.
You create an Android application with the data from the following table. The process of creating the Android application is described and depicted below the table.
Table 1. New Android project
Property | Value |
---|---|
Application Name | Test App |
Project Name | com.vogella.android.first |
Package name | com.vogella.android.first |
API (Minimum, Target, Compile with) | Latest |
Template | BlankActivity |
Activity | MainActivity |
Layout | activity_main |
To create a new Android project select
→ → → → from the menu. Enter the fitting data from the table above in the first wizard page.
Press the
button and ensure that you have selected to create a launcher icon and an activity.
On the wizard page for the launcher icon, create a nice looking icon. The following screenshot shows an example.
Press the BlankActivity template. Press the button
button and select on the next page the
Enter the following data which was also described in the above table.
Press the Finish button. The wizard may prompt you to install the support library. If you are prompted, select to install it.
If you have not yet done so, create an Android virtual device (AVD) fitting for your selected API version and start this AVD. Wait until the AVD has started.
Unlock your emulator.
An Android application is a single installable unit which can be started and used independently of other Android applications. It consists out of Android components and resource files. The Android system knows activities, services, broadcast receiver and content provider as components.
An Android application can have one application class which is instantiated as soon as the application starts and the last components which is stopped if the application gets stopped.
Android application components can connect to components of other Android applications. This way they can create cross-application tasks.
For example an application which allows you to make a photo can start an email application and instruct this application to create a new email and attach a photo to this email. This reuse of existing components is an important design concept of Android applications and allows the developer to leverage the applications installed on the device.
The following description gives a overview of the most important user interface related component and parts of an Android application.
An activity represents the visual representation of an Android application. An Android application can have several activities.
Activities use views and fragments to create the user interface and to interact with the user. Both elements are described in the next sections.
Fragments are components which run in the context of an activity . A fragment encapsulates application code so that it is easier to reuse it and to support different sized devices.
Fragments are optional components which allow you to reuse user interface and non user interface components for different devices configurations.
Views are user interface widgets, e.g. buttons or text fields. The base class for all views is the
android.view.View
class. Views have attributes which can be used to configure their appearance and behavior.
A layout manager is responsible for arranging other view . The base class for these layout managers is the
android.view.ViewGroup
class which extends the View
class. A layout managers is typically called ViewGroup based on the implementing class name.
Layout managers can be nestled to create complex layouts.
The user interface for activities is typically defined via XML files (layout files). It is possible to define defined layout file for different device configuration, e.g. based on the available width of the actual device running the application.
Fragments are designed to support such a setup.
The following pictures shows an activity called MainActivity. On a smaller screen it shows only one fragment and allows that the user navigates to another fragment. On a wide screen it shows two fragments.
Android has several more components which can be used in your Android application.
Intents are asynchronous messages which allow application components to request functionality from other Android components. Intents allow to interact with components from the own and other applications. For example an activity can start an external activity for taking a picture.
An application can call a component directly (explicit intent) or ask the Android system to evaluate registered components based on the intent data (implicit intents).
For example an application component can implement the sharing of data via an intent. If this intent is triggered the user could select which registered component should handle the sharing of data. Application components are registered to handle an intent via an intent filter.
Services perform tasks without providing a user interface. They can communicate with other Android components and notify the user via the notification framework in Android.
A content provider (provider) provides a structured interface to application data. A provider can be used for accessing data within one application but can also be used to share data with other applications.
Android contains an SQLite database which is frequently used in conjunction with a content provider. The SQLite database would store the data, which would be accessed via the provider.
A broadcast receiver (receiver) can be registered to receive system messages and intents. A receiver gets notified by the Android system, if the specified event occurs.
For example you can register a broadcast receivers for the event that the Android system completed the boot processor or for the event that the state of the phone changes, e.g. someone is calling.
Widgets are interactive components which are primarily used on the Android homescreen. They typically display some kind of data and allow the user to perform actions via them. For example a widget can display a short summary of new emails and if the user selects an email, it could start the email application with the selected email.
The components and settings of an Android application are described in the
AndroidManifest.xml
file. For example all activities and services of the application must be declared in this file.
It must also contain the required permissions for the application. For example if the application requires network access it must be specified here.
xmlns:android="http://schemas.android.com/apk/res/android"
package="de.vogella.android.temperature"
android:versionCode="1"
android:versionName="1.0">
android:icon="@drawable/icon" android:label="@string/app_name">
android:name=".Convert"
android:label="@string/app_name">
android:name="android.intent.action.MAIN" />
android:name="android.intent.category.LAUNCHER" />
The
package
attribute defines the base package for the Java objects referred to in this file. If a Java object lies within a different package, it must be declared with the full qualified package name.
Google Play requires that every Android application uses its own unique package. Therefore it is a good habit to use your reverse domain name as package name. This will avoid collisions with other Android applications.
android:versionName
and android:versionCode
specify the version of your application. versionName
is what the user sees and can be any String.versionCode
must be an integer. The Android Market determine based on the versionCode
, if it should perform an update of the applications for the existing installations. You typically start with "1" and increase this value by one, if you roll-out a new version of your application.
The
tag defines an activity, in this example pointing to the Convert
class in thede.vogella.android.temperature
package. An intent filter is registered for this class which defines that this activity is started once the application starts (actionandroid:name="android.intent.action.MAIN"
). The category definition category android:name="android.intent.category.LAUNCHER"
defines that this application is added to the application directory on the Android device.
The
@string/app_name
value refers to resource files which contain the actual value of the application name. The usage of resource file makes it easy to provide different resources, e.g. strings, colors, icons, for different devices and makes it easy to translate applications.
The
uses-sdk
part of the AndroidManifest.xml
file defines the minimal SDK version for which your application is valid. This will prevent your application being installed on unsupported devices.
The Android system controls the lifecycle of your application. At any time the Android system may stop or destroy your application, e.g. because of an incoming call. The Android system defines a lifecycle foractivities via predefined methods. The most important methods are:
onSaveInstanceState()
- called after the activity is stopped. Used to save data so that theactivity can restore its states if re-startedonPause()
- always called if the activity ends, can be used to release resource or save dataonResume()
- called if the activity is re-started, can be used to initialize fields
An activity will also be restarted, if a so called "configuration change" happens. A configuration change happens if an event is triggered which may be relevant for the application. For example if the user changes the orientation of the device (vertically or horizontally). Android assumes that an activitymight want to use different resources for these orientations and restarts the activity.
In the emulator you can simulate the change of the orientation via Ctrl+F11.
You can avoid a restart of your application for certain configuration changes via the
configChanges
attribute on your activity definition in your AndroidManifest.xml
. The following activity will not be restarted in case of orientation changes or position of the physical keyboard (hidden / visible). android:name=".ProgressTestActivity"
android:label="@string/app_name"
android:configChanges="orientation|keyboardHidden|keyboard">
The class
android.content.Context
provides the connection to the Android system and the resources of the project. It is the interface to global information about the application environment.
The Context also provides access to Android services, e.g. the Location Service.
Activities and services extend the
Context
class.
Android supports that resources, like images and certain XML configuration files, can be keep separate from the source code.
These resources must be defined in the
res
directory in a special folder dependent on their purpose. You can also append additional qualifiers to the folder name to indicate that the related resources should be used for special configurations, e.g. you can specify that a resource is only valid for a certain screen size.
The following table give an overview of the supported resources and their standard folder prefix.
Table 2. Resources
Resource | Folder | Description |
---|---|---|
Simple Values | /res/values | Used to define strings, colors, dimensions, styles and static arrays of strings or integers. By convention each type is stored in a separate file, e.g. strings are defined in the res/values/strings.xml file. |
Layouts | /res/layout | XML file with layout description files used to define the user interface foractivities and Fragments. |
Styles and Themes | /res/values | Files which define the appearance of your Android application. |
Animations | /res/animator | Define animations in XML for the property animation API which allows to animate arbitrary properties of objects over time. |
Menus | /res/menu | Define the properties of entries for a menu. |
The
gen
directory in an Android project contains generated values. R.java
is a generated class which contains references to certain resources of the project.
If you create a new resource, the corresponding reference is automatically created in
R.java
via the Eclipse ADT tools. These references are static integer values and define IDs for the resources.
The Android system provides methods to access the corresponding resource via these IDs.
For example to access a String with the
R.string.yourString
ID, you would use thegetString(R.string.yourString))
method.R.java
is automatically created by the Eclipse development environment, manual changes are not necessary and will be overridden by the tooling.
This allow you to use the ID directly in your layout file.
xmlns:tools="http://schemas.android.com/tools" android:layout_width="match_parent" android:layout_height="match_parent" tools:context=".MainActivity" > android:layout_width="wrap_content" android:layout_height="wrap_content" android:layout_centerHorizontal="true" android:layout_centerVertical="true" android:layout_marginRight="27dp" android:text="Button" />"http://schemas.android.com/apk/res/android"
The
Resources
class allows to access individual resources. An instance of Resources
can get access via the getResources()
method of the Context
class.
The
Resources
class is also used by other Android classes, for example the following code shows how to create a Bitmap
file from a reference ID.BitmapFactory.decodeResource(getResources(), R.drawable.ic_action_search);
In your XML files, for example your layout files, you can refer to other resources via the
@
sign.
For example, if you want to refer to a color which is defined in an XML resource, you can refer to it via
@color/your_id
. Or if you defined a "hello" string in an XML resource, you could access it via@string/hello
.
The user interface for activities is defined via layouts. The layout defines the included
Views
(widgets) and their properties.
A layout can be defined via Java code or vian XML. In most cases the layout is defined as an XML file.
XML based layouts are defined via a resource file in the
/res/layout
folder. This file specifies theViewGroups
, Views
, their relationship and their attributes for this specific layout.
If a
View
needs to be accessed via Java code, you have to give the View
a unique ID via theandroid:id
attribute. To assign a new ID to a View
use . The following shows an example in which a@+id/yourvalue
Button
gets the button1
ID assigned.
By conversion this will create and assign a new
yourvalue
ID to the corresponding View
. In your Java code you can later access a View
via the method findViewById(R.id.yourvalue)
.
Defining layouts via XML is usually the preferred way as this separates the programming logic from the layout definition. It also allows the definition of different layouts for different devices. You can also mix both approaches.
While the
res
directory contains structured values which are known to the Android platform, theassets
directory can be used to store any kind of data.
You access this data via the
AssetsManager
which you can access the getAssets()
method.
The
AssetsManager
class allows to read a file in the assets
folder as InputStream
with theopen()
method. The following code shows an example for this.// Get the AssetManager AssetManager manager = getAssets(); // Read a Bitmap from Assets InputStream open = null; try { open = manager.open("logo.png"); Bitmap bitmap = BitmapFactory.decodeStream(open); // Assign the bitmap to an ImageView in this layout ImageView view = (ImageView) findViewById(R.id.imageView1); view.setImageBitmap(bitmap); } catch (IOException e) { e.printStackTrace(); } finally { if (open != null) { try { open.close(); } catch (IOException e) { e.printStackTrace(); } } }
Things are not always working as they should. You find a list of typical Android development problems and their solution under the following link: Solutions for common Android development problems.
You can open this view via
→ → → → .
The LogCat view allows you also to define a filter for the log messages, e.g. for your category.
In your
com.vogella.android.first
project create the following interface to define your log constant.package com.vogella.android.first; public interface Constants { String LOG = "com.vogella.android.first"; }
Add a log statement to your
onCreate
method.@Override protected void onCreate(Bundle savedInstanceState) { super.onCreate(savedInstanceState); if (BuildConfig.DEBUG) { Log.d(Constants.LOG, "onCreated called"); } setContentView(R.layout.activity_main); }
Add a filter to the LogCat view for your category.
Android provides lots of simple views (widgets), e.g. the
Button
, TextView
, EditText
classes and well as more complex widgets, for example ListView
or GridView
to show structured data.
This application is available on the Android Marketplace under Android Temperature converter .
Alternatively you can also scan the following barcode with your Android smartphone to install it via the Google Play application.
Select
→ → → → to create a new Android project with the following data.
Table 3. New Android project
Property | Value |
---|---|
Application Name | Temperature Converter |
Project Name | de.vogella.android.temperature |
Package name | de.vogella.android.temperature |
API (Minimum, Target, Compile with) | Latest |
Template | BlankActivity |
Activity | MainActivity |
Layout | activity_main |
After the wizard ends, a project structure similar to the following picture is created.
Android allows you to create static attributes, e.g. Strings or colors. These attributes can for example be used in your XML layout files or referred to via Java source code.
Select the
res/values/string.xml
file and press the button.
Select the Color entry in the following dialog and press the button. Enter
myColor
as the name and#F5F5F5
as the value.
Add more attributes, this time of the
String
type. String attributes allow the developer to translate the application at a later point.
Switch to the XML representation and validate that the values are correct.
name="app_name">Temparature Convertor name="hello_world">Hello world! name="menu_settings">Settings name="title_activity_main">Temparature Convertor name="myColor">#3399CC name="celsius" >to Celsius name="fahrenheit">to Fahrenheit name="calc">Calculate
Select the
res/layout/activity_main.xml
file and open the Android editor via a double-click. This editor allows you to create the layout via drag and drop or via the XML source code. You can switch between both representations via the tabs at the bottom of the editor. For changing the position and grouping elements you can use the Eclipse Outline view.
The following shows a screenshot of the Palette side of this editor. from which you can drag and drop new user interface components into your layout. Please note that the Palette view changes frequently so your view might be a bit different.
You will now create the layout for your Android application.
Right-click on the existing Hello World! text object in the layout. Select from the popup menu to remove the text object.
Afterwards select the Text Fields section in the Palette and locate the Plain Text (via the tooltip).
All entries in the Text Fields section define text fields. The different entries define additional attribute for them, e.g. if a text field should only contain numbers.
Drag this onto the layout to create a text input field.
Afterwards select the Form Widgets section in the Palette and drag a RadioGroup entry into the layout. The number of radio buttons added to the radio button group depends on your version of Eclipse. Make sure there are two radio buttons by deleting or adding radio buttons to the group.
Drag a Button from the Form Widgets section into the layout.
The result should look like the following screenshot.
Switch to the XML tab of your layout file and verify that the file looks similar to the following listing. ADT changes the templates very fast, so your XML might look slighty different.
xmlns:android="http://schemas.android.com/apk/res/android"
xmlns:tools="http://schemas.android.com/tools"
android:layout_width="match_parent"
android:layout_height="match_parent" >
android:id="@+id/editText1"
android:layout_width="wrap_content"
android:layout_height="wrap_content"
android:layout_alignParentLeft="true"
android:layout_alignParentTop="true"
android:ems="10" >
android:id="@+id/radioGroup1"
android:layout_width="wrap_content"
android:layout_height="wrap_content"
android:layout_alignParentLeft="true"
android:layout_below="@+id/editText1" >
android:id="@+id/radio0"
android:layout_width="wrap_content"
android:layout_height="wrap_content"
android:checked="true"
android:text="RadioButton" />
android:id="@+id/radio1"
android:layout_width="wrap_content"
android:layout_height="wrap_content"
android:text="RadioButton" />
If you select a user interface component (an instance of
View
), you can change its properties via the Eclipse Properties view. Most of the properties can be changed via the menu which can be opened via right-click. You can also edit properties of fields directly in XML. Changing properties in the XML file is much faster, if you know what you want to change. But the right-click menu is nice, if you are searching for a certain property.
Open your layout file.
Use a right-click on the first radio button to assign the
celsius
String attribute to its text
property. Assign the fahrenheit
string attribute to the text
property of the second radio button.
From now on, I assume you are able to use the properties menu on user interface components. You can always either edit the XML file or modify the properties via right-click.
Set the
Checked
property to true for the first RadioButton.
Assign
calc
to the text property of your button and assign the value onClick
to the onClick
property.
Set the
Input type
property to numberSigned
and numberDecimal
on the EditText
.
All your user interface components are contained in a layout. Assign a background color to this
Layout
. Right-click on an empty space in Graphical Layout mode, then select → → . Select Color and then select myColor
in the dialog.
Afterwards the background should change to the
whitesmoke
color. It might difficult to see the difference.
Switch to the
activity_main.xml
tab and verify that the XML is correct. xmlns:android="http://schemas.android.com/apk/res/android"
xmlns:tools="http://schemas.android.com/tools"
android:layout_width="match_parent"
android:layout_height="match_parent"
android:background="@color/myColor" >
android:id="@+id/editText1"
android:layout_width="wrap_content"
android:layout_height="wrap_content"
android:layout_alignParentLeft="true"
android:layout_alignParentTop="true"
android:ems="10"
android:inputType="numberSigned|numberDecimal"
>
android:id="@+id/radioGroup1"
android:layout_width="wrap_content"
android:layout_height="wrap_content"
android:layout_alignParentLeft="true"
android:layout_below="@+id/editText1" >
android:id="@+id/radio0"
android:layout_width="wrap_content"
android:layout_height="wrap_content"
android:checked="true"
android:text="@string/celsius" />
android:id="@+id/radio1"
android:layout_width="wrap_content"
android:layout_height="wrap_content"
android:text="@string/fahrenheit" />
During the generation of your new Android project you specified that an activity called
MainActivity
should be created. The project wizard created the corresponding Java class.
Change your
MainActivity
class to the following isting. Note that the onClick
will be called based on the OnClick
property of your button. I use the same name as this is easier to remember.package de.vogella.android.temperature; import android.app.Activity; import android.os.Bundle; import android.view.View; import android.widget.EditText; import android.widget.RadioButton; import android.widget.Toast; public class MainActivity extends Activity { private EditText text; @Override public void onCreate(Bundle savedInstanceState) { super.onCreate(savedInstanceState); setContentView(R.layout.activity_main); text = (EditText) findViewById(R.id.editText1); } // This method is called at button click because we assigned the name to the // "OnClick property" of the button public void onClick(View view) { switch (view.getId()) { case R.id.button1: RadioButton celsiusButton = (RadioButton) findViewById(R.id.radio0); RadioButton fahrenheitButton = (RadioButton) findViewById(R.id.radio1); if (text.getText().length() == 0) { Toast.makeText(this, "Please enter a valid number", Toast.LENGTH_LONG).show(); return; } float inputValue = Float.parseFloat(text.getText().toString()); if (celsiusButton.isChecked()) { text.setText(String .valueOf(convertFahrenheitToCelsius(inputValue))); celsiusButton.setChecked(false); fahrenheitButton.setChecked(true); } else { text.setText(String .valueOf(convertCelsiusToFahrenheit(inputValue))); fahrenheitButton.setChecked(false); celsiusButton.setChecked(true); } break; } } // Converts to celsius private float convertFahrenheitToCelsius(float fahrenheit) { return ((fahrenheit - 32) * 5 / 9); } // Converts to fahrenheit private float convertCelsiusToFahrenheit(float celsius) { return ((celsius * 9) / 5) + 32; } }
To start the Android Application, select your project, right click on it, and select
→ . If an emulator is not yet running, it will be started. Be patient, the emulator starts up very slowly.
Type in a number, select your conversion and press the button. The result should be displayed and the other option should get selected.
After you run your application on the virtual device, you can start it again on the device. If you press the Home button you can select your application.
A layout manager is a subclass of
ViewGroup
and is responsible for the layout of itself and its childViews
. Android supports different default layout managers.
As of Android 4.0 the most relevant layout managers are
LinearLayout
, FrameLayout
,RelativeLayout
and GridLayout
.
All layouts allow the developer to define attributes. Children can also define attributes which may be evaluated by their parent layout.
AbsoluteLayoutLayout
is deprecated and TableLayout
can be implemented more effectively via GridLayout
Children can specify there desired width and height via the following attributes.
Table 5. Width and height definition
Attribute | Description |
---|---|
android:layout_width | defines the width of the widget |
android:layout_height | defines the height of the widget |
Widgets can uses fixed sizes, e.g. with the
dp
definition, for example 100dp
. While dp is a fixed size it will scale with different device configurations.
The
match_parent
value tells the to maximize the widget in its parent. The wrap_content
value tells the layout to allocate the minimum amount so that widget is rendered correctly.FrameLayout
is a layout manager which draws all child elements on top of each other. Which allows to create nice visual effects.
The following screenshot shows the Gmail application which uses
FrameLayout
to display several button on top of another layout.LinearLayout
puts all its child elements into a single column or row depending on theandroid:orientation
attribute. Possible values for this attribute are horizontal
and vertical
,horizontal
is the default value.
If horizontal is used the child elements are layouted as indicated by the following picture.
Vertial would result in a layout as depicted in the following picture.
LinearLayout
can be nested to achieve more complex layouts.LinearLayout
supports assigning a weight to individual children via the android:layout_weight
layout parameter. This value specifies how much of the extra space in the layout is allocated to theView
. If for example you have two widgets and the first one defines a layout_weight
of 1 and the second of 2, the first will get 1/3 of the available space and the other one 2/3. You can also set the layout_width to zero to have always a certain ratio.RelativeLayout
allow to position the widget relative to each other. This allows for complex layouts.
A simple usage for
RelativeLayout
is if you want to center a single component. Just add one component to the RelativeLayout
and set the android:layout_centerInParent
attribute to true."1.0"
GridLayout
was introduced with Android 4.0. This layout allows you to organize a view into a Grid. GridLayout separates its drawing area into: rows, columns, and cells.
You can specify how many columns you want for define for each
View
in which row and column it should be placed and how many columns and rows it should use. If not specified GridLayout
uses defaults, e.g. one column, one row and the position of a View
depends on the order of the declaration of the Views
.
The following layout file defines a layout using
GridLayout
.
xmlns:android="http://schemas.android.com/apk/res/android"
android:id="@+id/GridLayout1"
android:layout_width="match_parent"
android:layout_height="match_parent"
android:columnCount="4"
android:useDefaultMargins="true" >
android:layout_column="0"
android:layout_columnSpan="3"
android:layout_gravity="center_horizontal"
android:layout_marginTop="40dp"
android:layout_row="0"
android:text="User Credentials"
android:textSize="32dip" />
android:layout_column="0"
android:layout_gravity="right"
android:layout_row="1"
android:text="User Name: " >
android:id="@+id/input1"
android:layout_column="1"
android:layout_columnSpan="2"
android:layout_row="1"
android:ems="10" />
android:layout_column="0"
android:layout_gravity="right"
android:layout_row="2"
android:text="Password: " >
android:id="@+id/input1"
android:layout_column="1"
android:layout_columnSpan="2"
android:layout_row="2"
android:ems="8" />
This creates a user interface similar to the following screenshot.
The
ScrollView
class can be used to contain one View
that might be to big too fit on one screen.ScrollView
will is this case display a scroll bar to scroll the context.
Of course this
View
can be a layout which can then contain other elements.
The following code shows an example layout file which uses a
ScrollView
."1.0"
The
android:fillViewport="true"
attribute ensures that the scrollview is set to the full screen even if the elements are smaller then one screen.
This exercise demonstrates the usage of the
ScrollView
view to provide a scrollable user interface component. Create an android project de.vogella.android.scrollview " with the activity calledScrollViewActivity.
Change the layout file used in the activity to the following.
xmlns:android="http://schemas.android.com/apk/res/android"
android:layout_width="match_parent"
android:layout_height="match_parent"
android:fillViewport="true"
android:orientation="vertical" >
android:id="@+id/LinearLayout01"
android:layout_width="match_parent"
android:layout_height="wrap_content"
android:orientation="vertical" >
android:id="@+id/TextView01"
android:layout_width="wrap_content"
android:layout_height="wrap_content"
android:paddingLeft="8dip"
android:paddingRight="8dip"
android:paddingTop="8dip"
android:text="This is a header"
android:textAppearance="?android:attr/textAppearanceLarge" >
android:id="@+id/TextView02"
android:layout_width="wrap_content"
android:layout_height="match_parent"
android:layout_weight="1.0"
android:text="@+id/TextView02" >
android:id="@+id/LinearLayout02"
android:layout_width="wrap_content"
android:layout_height="wrap_content" >
Change your
ScrollViewActivity
class to the following code.package de.vogella.android.scrollview; import android.app.Activity; import android.os.Bundle; import android.view.View; import android.widget.TextView; public class ScrollViewActivity extends Activity {/** Called when the activity is first created. */@Override public void onCreate(Bundle savedInstanceState) { super.onCreate(savedInstanceState); setContentView(R.layout.main); TextView view = (TextView) findViewById(R.id.TextView02); String s=""; for (int i=0; i < 500; i++) { s += "vogella.com "; } view.setText(s); } }
Start your application and ensure that you can scroll down to the buttons.
Eclipse provides a perspective for interacting with your Android (virtual) device and your Android application program. Select
→ → → to open this perspective. It includes several Views
which can also be used independently and allows for example the application to place calls and send SMS to the device. It also allows the application to set the current geo position and allows you to perform a performance trace of your application.
In general there are you restrictions how to deploy an Android application to your device. You can use USB, email yourself the application or use one of the many Android markets to install the application. The following describes the most common ones.
Turn on USB Debugging on your device in the settings. Select in the settings of your device → , then enable USB debugging.
You may also need to install the a driver for your mobile phone. Linux and Mac OS usually work out of the box while an Windows OS typically requires the installation of a driver.
For details please see Developing on a Device . Please note that the Android version you are developing for must be the installed version on your phone.
If you have only one device connected and no emulator running, the Android develoment tools will automatically deploy to this device. If you have several connected you can selected which one shoudl be used.
Android application must be signed before they can get installed on an Android device. During development Eclipse signs your application automatically with a debug key.
If you want to install your application without the Eclipse IDE you can right-click on it and select
→ .
This wizard allows to use an existing key or to create a new one.
Please note that you need to use the same signature key in Google Play (Google Market) to update your application. If you loose the key you will NOT be able to update your application ever again.
Make sure to backup your key.
Android allow to install applications also directly. Just click on a link which points to an .apk file, e.g. in an email attachment or on a webpage. Android will prompt you if you want to install this application.
This requires a setting on the Android device which allows the installation of non-market application. Typically this setting can be found under the "Security" settings.
Google Play requires a one time fee, currently 25 Dollar. After that the developer can directly upload his application and the required icons, under Google Play Publishing .
Google performs some automatic scanning of applications, but no approval process is in place. All application, which do not contain malware, will be published. Usually a few minutes after upload, the application is available.
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