Awesome
NDK App Template
This is a template application that configures a bit more than the new project wizard in Android Studio. The differences are:
- Better default gitignore
- A gitattributes file
- Includes testing support
- Removed empty proguard config
- Updated out of date dependencies
- A less cluttered CMakeLists.txt
- Added a version script to protect the app's symbol visibility
- Uses
RegisterNatives
viaJNI_OnLoad
instead of name-based lookups - Added C++ unit tests
- Enable clang-tidy
You should change the following after forking this template:
- Change the project name using the
rootProject.name
property insettings.gradle
. - Update the
groupId
andapplicationId
.git grep com.example
andgit grep -i myapplication
to find places to update. You'll also need to rename andcom/example/myapplication
directories to match your new IDs, and update the argument toenv->FindClass
inJNI_OnLoad
. - Update the CMake
project
name inCMakeLists.txt
. - (Optional) Relicense the project if you don't want your code covered by Zero Clause BSD.
How to use this template in Android Studio
Open Android Studio and open this directory when selecting a project.
How to use this template in Visual Studio Code
Warning: I struggled a lot to get this to work, and wasn't happy with the result. The C++ features are annoying to keep working, and I didn't find any answers about how to work with Kotlin or even Java in Android projects. Please send a PR if you figure out better instructions.
Open VSCode and open this directory to create the workspace.
Install the C++ extension.
The C++ extension needs the compile_commands.json
file that is generated by
CMake during the build, so build the project once to prepare that for the
editor: ./gradlew assemble
.
Next you need to configure VSCode to use the generated compile_commands.json
file. If you open a C++ file in the app project, VSCode may pop up a dialog in
the bottom right of the window that will do that for you. If it doesn't, you can
configure it manually:
- Run
find app/.cxx -name compile_commands.json
to find the fils that were generated. - Open the C/C++: Edit Configurations (UI) window (ctrl+shift+P or cmd+shift+P on macOS, then search for that)
- (Optional) Add a new configuration for this build type, such as
Android Debug arm64-v8a
(the name doesn't have any special meaning, it's just for your benefit). - Expand the "Advanced" settings
- Set the "Compile commands" field to the path of the
compile_commands.json
file.
In either case, you'll have multiple compile_commands.json
files to choose
from; one per CMake build type and ABI combo. For example, you'll have
RelWithDebInfo/<some hash>/arm64-v8a
and Debug/<some hash>/x86
. Pick
whichever is appropriate for the config you're testing.
Warning: The output location of compile_commands.json
is not stable because
AGP uses a hash of the CMake commands as part of the output directory as a way
to share objects between identical build variants. This means that you may need
to repeat these steps if you change your build.gradle file. If the find
command above is showing more than one hash for each CMake build type, you'll
need to do a clean build and then rebuild to determine which path is the correct
one. See https://issuetracker.google.com/232986281 for more information.