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Meet Android Studio

Android Studio is the official Integrated Development Environment (IDE) for Android app development, based on IntelliJ IDEA . On top of IntelliJ's powerful code editor and developer tools, Android Studio offers even more features that enhance your productivity when building Android apps, such as:

This page provides an introduction to basic Android Studio features. For a summary of the latest changes, see Android Studio Release Notes.

Project Structure

Figure 1. The project files in Android view.

Each project in Android Studio contains one or more modules with source code files and resource files. Types of modules include:

By default, Android Studio displays your project files in the Android project view, as shown in figure 1. This view is organized by modules to provide quick access to your project's key source files.

All the build files are visible at the top level under Gradle Scripts and each app module contains the following folders:

The Android project structure on disk differs from this flattened representation. To see the actual file structure of the project, select Project from the Project dropdown (in figure 1, it's showing as Android).

You can also customize the view of the project files to focus on specific aspects of your app development. For example, selecting the Problems view of your project displays links to the source files containing any recognized coding and syntax errors, such as a missing XML element closing tag in a layout file.

Figure 2. The project files in Problems view, showing a layout file with a problem.

For more information, see Managing Projects.

The User Interface

The Android Studio main window is made up of several logical areas identified in figure 3.

Figure 3. The Android Studio main window.

  1. The toolbar lets you carry out a wide range of actions, including running your app and launching Android tools.
  2. The navigation bar helps you navigate through your project and open files for editing. It provides a more compact view of the structure visible in the Project window.
  3. The editor window is where you create and modify code. Depending on the current file type, the editor can change. For example, when viewing a layout file, the editor displays the Layout Editor.
  4. The tool window bar runs around the outside of the IDE window and contains the buttons that allow you to expand or collapse individual tool windows.
  5. The tool windows give you access to specific tasks like project management, search, version control, and more. You can expand them and collapse them.
  6. The status bar displays the status of your project and the IDE itself, as well as any warnings or messages.

You can organize the main window to give yourself more screen space by hiding or moving toolbars and tool windows. You can also use keyboard shortcuts to access most IDE features.

At any time, you can search across your source code, databases, actions, elements of the user interface, and so on, by double-pressing the Shift key, or clicking the magnifying glass in the upper right-hand corner of the Android Studio window. This can be very useful if, for example, you are trying to locate a particular IDE action that you have forgotten how to trigger.

Tool Windows

Instead of using preset perspectives, Android Studio follows your context and automatically brings up relevant tool windows as you work. By default, the most commonly used tool windows are pinned to the tool window bar at the edges of the application window.

You can also use keyboard shortcuts to open tool windows. Table 1 lists the shortcuts for the most common windows.

Table 1. Keyboard shortcuts for some useful tool windows.

Tool Window Windows and Linux Mac
Project Alt+1 Command+1
Version Control Alt+9 Command+9
Run Shift+F10 Control+R
Debug Shift+F9 Control+D
Android Monitor Alt+6 Command+6
Return to Editor Esc Esc
Hide All Tool Windows Control+Shift+F12 Command+Shift+F12

If you want to hide all toolbars, tool windows, and editor tabs, click View > Enter Distraction Free Mode. This enables Distraction Free Mode. To exit Distraction Free Mode, click View > Exit Distraction Free Mode.

You can use Speed Search to search and filter within most tool windows in Android Studio. To use Speed Search, select the tool window and then type your search query.

For more tips, see Keyboard Shortcuts.

Code Completion

Android Studio has three types of code completion, which you can access using keyboard shortcuts.

Table 2. Keyboard shortcuts for code completion.

Type Description Windows and Linux Mac
Basic Completion Displays basic suggestions for variables, types, methods, expressions, and so on. If you call basic completion twice in a row, you see more results, including private members and non-imported static members. Control+Space Control+Space
Smart Completion Displays relevant options based on the context. Smart completion is aware of the expected type and data flows. If you call Smart Completion twice in a row, you see more results, including chains. Control+Shift+Space Control+Shift+Space
Statement Completion Completes the current statement for you, adding missing parentheses, brackets, braces, formatting, etc. Control+Shift+Enter Shift+Command+Enter

You can also perform quick fixes and show intention actions by pressing Alt+Enter.

For more information about code completion, see Code Completion.

Find sample code

The Code Sample Browser in Android Studio helps you find high-quality, Google-provided Android code samples based on the currently highlighted symbol in your project. For more information, see Find Sample Code.

Here are some tips to help you move around Android Studio.

Style and Formatting

As you edit, Android Studio automatically applies formatting and styles as specified in your code style settings. You can customize the code style settings by programming language, including specifying conventions for tabs and indents, spaces, wrapping and braces, and blank lines. To customize your code style settings, click File > Settings > Editor > Code Style (Android Studio > Preferences > Editor > Code Style on a Mac.)

Although the IDE automatically applies formatting as you work, you can also explicitly call the Reformat Code action by pressing Control+Alt+L (Opt+Command+L on a Mac), or auto-indent all lines by pressing Control+Alt+I (Alt+Option+I on a Mac).

Figure 5. Code before formatting.

Figure 6. Code after formatting.

Version Control Basics

Android Studio supports a variety of version control systems (VCS’s), including Git, GitHub, CVS, Mercurial, Subversion, and Google Cloud Source Repositories.

After importing your app into Android Studio, use the Android Studio VCS menu options to enable VCS support for the desired version control system, create a repository, import the new files into version control, and perform other version control operations:

  1. From the Android Studio VCS menu, click Enable Version Control Integration.
  2. From the drop-down menu, select a version control system to associate with the project root, and then click OK.

The VCS menu now displays a number of version control options based on the system you selected.

Note: You can also use the File > Settings > Version Control menu option to set up and modify the version control settings.

Gradle Build System

Android Studio uses Gradle as the foundation of the build system, with more Android-specific capabilities provided by the Android plugin for Gradle. This build system runs as an integrated tool from the Android Studio menu, and independently from the command line. You can use the features of the build system to do the following:

By employing the flexibility of Gradle, you can achieve all of this without modifying your app's core source files. Android Studio build files are named build.gradle. They are plain text files that use Groovy syntax to configure the build with elements provided by the Android plugin for Gradle. Each project has one top-level build file for the entire project and separate module-level build files for each module. When you import an existing project, Android Studio automatically generates the necessary build files.

To learn more about the build system and how to configure, see Configure Your Build.

Build Variants

The build system can help you create different versions of the same application from a single project. This is useful when you have both a free version and a paid version of your app, or if you want to distribute multiple APKs for different device configurations on Google Play.

For more information about configuring build variants, see Configuring Gradle Builds.

Multiple APK Support

Multiple APK support allows you to efficiently create multiple APKs based on screen density or ABI. For example, you can create separate APKs of an app for the hdpi and mdpi screen densities, while still considering them a single variant and allowing them to share test APK, javac, dx, and ProGuard settings.

For more information about multiple APK support, read Build Multiple APKs.

Resource Shrinking

Resource shrinking in Android Studio automatically removes unused resources from your packaged app and library dependencies. For example, if your application is using Google Play services to access Google Drive functionality, and you are not currently using Google Sign-In, then resource shrinking can remove the various drawable assets for theSignInButton buttons.

Note: Resource shrinking works in conjunction with code shrinking tools, such as ProGuard.

For more information on shrinking code and resources, see Shrink Your Code and Resources.

Managing Dependencies

Dependencies for your project are specified by name in the build.gradle file. Gradle takes care of finding your dependencies and making them available in your build. You can declare module dependencies, remote binary dependencies, and local binary dependencies in your build.gradle file. Android Studio configures projects to use the Maven Central Repository by default. (This configuration is included in the top-level build file for the project.) For more information about configuring dependencies, read Configure Build Variants.

Debug and Profile Tools

Android Studio assists you in debugging and improving the performance of your code, including inline debugging and performance analysis tools.

Inline debugging

Use inline debugging to enhance your code walk-throughs in the debugger view with inline verification of references, expressions, and variable values. Inline debug information includes:

Figure 7. An inline variable value.

To enable inline debugging, in the Debug window, click Settings and select the checkbox for Show Values Inline.

Performance monitors

Android Studio provides performance monitors so you can more easily track your app’s memory and CPU usage, find deallocated objects, locate memory leaks, optimize graphics performance, and analyze network requests. With your app running on a device or emulator, open the Android Monitor tool window, and then click the Monitors tab.

For more information about performance monitors, see Android Monitor.

Heap dump

When you’re monitoring memory usage in Android Studio, you can simultaneously initiate garbage collection and dump the Java heap to a heap snapshot in an Android-specific HPROF binary format file. The HPROF viewer displays classes, instances of each class, and a reference tree to help you track memory usage and find memory leaks.

For more informatin about working with heap dumps, see Dumping and Analyzing the Java Heap.

Allocation tracker

Android Studio allows you to track memory allocation as it monitors memory use. Tracking memory allocation allows you to monitor where objects are being allocated when you perform certain actions. Knowing these allocations enables you to optimize your app’s performance and memory use by adjusting the method calls related to those actions.

For information about tracking and analyzing allocations, see Allocation Tracker.

Data file access

The Android SDK tools, such as Systrace, logcat, and Traceview, generate performance and debugging data for detailed app analysis.

To view the available generated data files, open the Captures tool window. In the list of the generated files, double-click a file to view the data. Right-click any .hprof files to convert them to the standard .hprof file format.

Code inspections

Whenever you compile your program, Android Studio automatically runs configured Lint and other IDE inspections to help you easily identify and correct problems with the structural quality of your code.

The Lint tool checks your Android project source files for potential bugs and optimization improvements for correctness, security, performance, usability, accessibility, and internationalization.

Figure 8. The results of a Lint inspection in Android Studio.

In addition to Lint checks, Android Studio also performs IntelliJ code inspections and validates annotations to streamline your coding workflow.

For more information, see Improving Your Code with Lint and lint tool.

Annotations in Android Studio

Android Studio supports annotations for variables, parameters, and return values to help you catch bugs, such as null pointer exceptions and resource type conflicts. The Android SDK Manager packages the Support-Annotations library in the Android Support Repository for use with Android Studio. Android Studio validates the configured annotations during code inspection.

For more details about Android annotations, see Improving Code Inspection with Annotations.

Log messages

When you build and run your app with Android Studio, you can view adb output and device log messages (logcat) by clicking Android Monitor at the bottom of the window.

If you want to debug your app with the Android Device Monitor, you can launch the Device Monitor by clicking Tools > Android > Android Device Monitor. The Device Monitor is where you can find the complete set of DDMS tools for profiling your app, controlling device behaviors, and more. It also includes the Hierarchy Viewer tool to help optimize your layouts.

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