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Android Studio 4.1 Development Essentials – Java Edition

You're reading from   Android Studio 4.1 Development Essentials – Java Edition Developing Android 11 Apps Using Android Studio 4.1, Java, and Android Jetpack

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Product type Paperback
Published in May 2021
Publisher Packt
ISBN-13 9781801815161
Length 810 pages
Edition 1st Edition
Languages
Tools
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Author (1):
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Neil Smyth Neil Smyth
Author Profile Icon Neil Smyth
Neil Smyth
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Table of Contents (88) Chapters Close

1. Introduction 2. Setting up an Android Studio Development Environment FREE CHAPTER 3. Creating an Example Android App in Android Studio 4. Creating an Android Virtual Device (AVD) in Android Studio 5. Using and Configuring the Android Studio AVD Emulator 6. A Tour of the Android Studio User Interface 7. Testing Android Studio Apps on a Physical Android Device 8. The Basics of the Android Studio Code Editor 9. An Overview of the Android Architecture 10. The Anatomy of an Android Application 11. An Overview of Android View Binding 12. Understanding Android Application and Activity Lifecycles 13. Handling Android Activity State Changes 14. Android Activity State Changes by Example 15. Saving and Restoring the State of an Android Activity 16. Understanding Android Views, View Groups and Layouts 17. A Guide to the Android Studio Layout Editor Tool 18. A Guide to the Android ConstraintLayout 19. A Guide to using ConstraintLayout in Android Studio 20. Working with ConstraintLayout Chains and Ratios in Android Studio 21. An Android Studio Layout Editor ConstraintLayout Tutorial 22. Manual XML Layout Design in Android Studio 23. Managing Constraints using Constraint Sets 24. An Android ConstraintSet Tutorial 25. A Guide to using Apply Changes in Android Studio 26. An Overview and Example of Android Event Handling 27. Android Touch and Multi-touch Event Handling 28. Detecting Common Gestures using the Android Gesture Detector Class 29. Implementing Custom Gesture and Pinch Recognition on Android 30. An Introduction to Android Fragments 31. Using Fragments in Android Studio - An Example 32. Modern Android App Architecture with Jetpack 33. An Android Jetpack ViewModel Tutorial 34. An Android Jetpack LiveData Tutorial 35. An Overview of Android Jetpack Data Binding 36. An Android Jetpack Data Binding Tutorial 37. An Android ViewModel Saved State Tutorial 38. Working with Android Lifecycle-Aware Components 39. An Android Jetpack Lifecycle Awareness Tutorial 40. An Overview of the Navigation Architecture Component 41. An Android Jetpack Navigation Component Tutorial 42. Creating and Managing Overflow Menus on Android 43. An Introduction to MotionLayout 44. An Android MotionLayout Editor Tutorial 45. A MotionLayout KeyCycle Tutorial 46. Working with the Floating Action Button and Snackbar 47. Creating a Tabbed Interface using the TabLayout Component 48. Working with the RecyclerView and CardView Widgets 49. An Android RecyclerView and CardView Tutorial 50. A Layout Editor Sample Data Tutorial 51. Working with the AppBar and Collapsing Toolbar Layouts 52. An Android Studio Master/Detail Flow Tutorial 53. An Overview of Android Intents 54. Android Explicit Intents – A Worked Example 55. Android Implicit Intents – A Worked Example 56. Android Broadcast Intents and Broadcast Receivers 57. A Basic Overview of Threads and AsyncTasks 58. An Overview of Android Started and Bound Services 59. Implementing an Android Started Service – A Worked Example 60. Android Local Bound Services – A Worked Example 61. Android Remote Bound Services – A Worked Example 62. An Android Notifications Tutorial 63. An Android Direct Reply Notification Tutorial 64. Foldable Devices and Multi-Window Support 65. An Overview of Android SQLite Databases 66. The Android Room Persistence Library 67. An Android TableLayout and TableRow Tutorial 68. An Android Room Database and Repository Tutorial 69. Accessing Cloud Storage using the Android Storage Access Framework 70. An Android Storage Access Framework Example 71. Video Playback on Android using the VideoView and MediaController Classes 72. Android Picture-in-Picture Mode 73. An Android Picture-in-Picture Tutorial 74. Making Runtime Permission Requests in Android 75. Android Audio Recording and Playback using MediaPlayer and MediaRecorder 76. Working with the Google Maps Android API in Android Studio 77. Printing with the Android Printing Framework 78. An Android HTML and Web Content Printing Example 79. A Guide to Android Custom Document Printing 80. An Introduction to Android App Links 81. An Android Studio App Links Tutorial 82. A Guide to the Android Studio Profiler 83. An Android Biometric Authentication Tutorial 84. Creating, Testing and Uploading an Android App Bundle 85. An Overview of Android Dynamic Feature Modules 86. An Android Studio Dynamic Feature Tutorial 87. An Overview of Gradle in Android Studio Index

2.6 Making the Android SDK Tools Command-line Accessible

Most of the time, the underlying tools of the Android SDK will be accessed from within the Android Studio environment. That being said, however, there will also be instances where it will be useful to be able to invoke those tools from a command prompt or terminal window. In order for the operating system on which you are developing to be able to find these tools, it will be necessary to add them to the system’s PATH environment variable.

Regardless of operating system, the PATH variable needs to be configured to include the following paths (where <path_to_android_sdk_installation> represents the file system location into which the Android SDK was installed):

<path_to_android_sdk_installation>/sdk/tools

<path_to_android_sdk_installation>/sdk/tools/bin

<path_to_android_sdk_installation>/sdk/platform-tools

The location of the SDK on your system can be identified by launching the SDK Manager and referring to the Android SDK Location: field located at the top of the settings panel as highlighted in Figure 2-7:

Figure 2-7

Once the location of the SDK has been identified, the steps to add this to the PATH variable are operating system dependent:

2.6.1 Windows 7

1. Right-click on Computer in the desktop start menu and select Properties from the resulting menu.

2. In the properties panel, select the Advanced System Settings link and, in the resulting dialog, click on the Environment Variables… button.

3. In the Environment Variables dialog, locate the Path variable in the System variables list, select it and click on the Edit… button. Using the New button in the edit dialog, add three new entries to the path. For example, assuming the Android SDK was installed into C:\Users\demo\AppData\Local\Android\Sdk, the following entries would need to be added:

C:\Users\demo\AppData\Local\Android\Sdk\platform-tools

C:\Users\demo\AppData\Local\Android\Sdk\tools

C:\Users\demo\AppData\Local\Android\Sdk\tools\bin

4. Click on OK in each dialog box and close the system properties control panel.

Once the above steps are complete, verify that the path is correctly set by opening a Command Prompt window (Start -> All Programs -> Accessories -> Command Prompt) and at the prompt enter:

echo %Path%

The returned path variable value should include the paths to the Android SDK platform tools folders. Verify that the platform-tools value is correct by attempting to run the adb tool as follows:

adb

The tool should output a list of command line options when executed.

Similarly, check the tools path setting by attempting to launch the AVD Manager command line tool (don’t worry if the avdmanager tool reports a problem with Java - this will be addressed later):

avdmanager

In the event that a message similar to the following message appears for one or both of the commands, it is most likely that an incorrect path was appended to the Path environment variable:

'adb' is not recognized as an internal or external command,

operable program or batch file.

2.6.2 Windows 8.1

1. On the start screen, move the mouse to the bottom right-hand corner of the screen and select Search from the resulting menu. In the search box, enter Control Panel. When the Control Panel icon appears in the results area, click on it to launch the tool on the desktop.

2. Within the Control Panel, use the Category menu to change the display to Large Icons. From the list of icons select the one labeled System.

3. Follow the steps outlined for Windows 7 starting from step 2 through to step 4.

Open the command prompt window (move the mouse to the bottom right-hand corner of the screen, select the Search option and enter cmd into the search box). Select Command Prompt from the search results.

Within the Command Prompt window, enter:

echo %Path%

The returned path variable value should include the paths to the Android SDK platform tools folders. Verify that the platform-tools value is correct by attempting to run the adb tool as follows:

adb

The tool should output a list of command line options when executed.

Similarly, check the tools path setting by attempting to run the AVD Manager command line tool (don’t worry if the avdmanager tool reports a problem with Java - this will be addressed later):

avdmanager

In the event that a message similar to the following message appears for one or both of the commands, it is most likely that an incorrect path was appended to the Path environment variable:

'adb' is not recognized as an internal or external command,

operable program or batch file.

2.6.3 Windows 10

Right-click on the Start menu, select Settings from the resulting menu and enter “Edit the system environment variables” into the Find a setting text field. In the System Properties dialog, click the Environment Variables... button. Follow the steps outlined for Windows 7 starting from step 3.

2.6.4 Linux

On Linux, this configuration can typically be achieved by adding a command to the .bashrc file in your home directory (specifics may differ depending on the particular Linux distribution in use). Assuming that the Android SDK bundle package was installed into /home/demo/Android/sdk, the export line in the .bashrc file would read as follows:

export PATH=/home/demo/Android/sdk/platform-tools:/home/demo/Android/sdk/tools:/home/demo/Android/sdk/tools/bin:/home/demo/android-studio/bin:$PATH

Note also that the above command adds the android-studio/bin directory to the PATH variable. This will enable the studio.sh script to be executed regardless of the current directory within a terminal window.

2.6.5 macOS

A number of techniques may be employed to modify the $PATH environment variable on macOS. Arguably the cleanest method is to add a new file in the /etc/paths.d directory containing the paths to be added to $PATH. Assuming an Android SDK installation location of /Users/demo/Library/Android/sdk, the path may be configured by creating a new file named android-sdk in the /etc/paths.d directory containing the following lines:

/Users/demo/Library/Android/sdk/tools

/Users/demo/Library/Android/sdk/tools/bin

/Users/demo/Library/Android/sdk/platform-tools

Note that since this is a system directory it will be necessary to use the sudo command when creating the file. For example:

sudo vi /etc/paths.d/android-sdk

You have been reading a chapter from
Android Studio 4.1 Development Essentials – Java Edition
Published in: May 2021
Publisher: Packt
ISBN-13: 9781801815161
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