Integrating Conan in Android Studio
At the Cross building to Android with the NDK we learned how to build a package for Android using the NDK. In this example we are going to learn how to do it with the Android Studio and how to use the libraries in a real Android application.
Creating a new project
First of all, download and install the Android Studio IDE.
Then create a new project
selecting Native C++
from the templates.
In the next wizard window, select a name for your application, for example MyConanApplication, you can leave the “Minimum SDK” with the suggested value (21 in our case), but remember the value as we are using it later in the Conan profile at os.api_level`
Select a “C++ Standard” in the next window, again, remember the choice as later we should use the same in the profile at compiler.cppstd
.
In the project generated with the wizard we have a folder cpp
with a native-lib.cpp
. We are going to modify that file to use zlib
and print a message with the used zlib
version. Copy only the highlighted lines, it is important to keep the function name.
native-lib.cpp
#include <jni.h>
#include <string>
#include "zlib.h"
extern "C" JNIEXPORT jstring JNICALL
Java_com_example_myconanapp_MainActivity_stringFromJNI(
JNIEnv* env,
jobject /* this */) {
std::string hello = "Hello from C++, zlib version: ";
hello.append(zlibVersion());
return env->NewStringUTF(hello.c_str());
}
Now we are going to learn how to introduce a requirement to the zlib
library and how to prepare our project.
Introducing dependencies with Conan
conanfile.txt
We need to provide the zlib
package with Conan. Create a file conanfile.txt
in the cpp
folder:
conanfile.txt
[requires]
zlib/1.2.12
[generators]
CMakeToolchain
CMakeDeps
[layout]
cmake_layout
build.gradle
We are going to automate calling conan install
before building the Android project, so the requires are prepared, open the build.gradle
file in the My_Conan_App.app
(Find it in the Gradle Scripts section of the Android project view). Paste the task conanInstall
contents after the plugins
and before the android
elements:
build.gradle
plugins {
...
}
task conanInstall {
def conanExecutable = "conan" // define the path to your conan installation
def buildDir = new File("app/build")
buildDir.mkdirs()
["Debug", "Release"].each { String build_type ->
["armv7", "armv8", "x86", "x86_64"].each { String arch ->
def cmd = conanExecutable + " install " +
"../src/main/cpp --profile android -s build_type="+ build_type +" -s arch=" + arch +
" --build missing -c tools.cmake.cmake_layout:build_folder_vars=['settings.arch']"
print(">> ${cmd} \n")
def sout = new StringBuilder(), serr = new StringBuilder()
def proc = cmd.execute(null, buildDir)
proc.consumeProcessOutput(sout, serr)
proc.waitFor()
println "$sout $serr"
if (proc.exitValue() != 0) {
throw new Exception("out> $sout err> $serr" + "\nCommand: ${cmd}")
}
}
}
}
android {
compileSdk 32
defaultConfig {
...
The conanInstall
task is calling conan install for Debug/Release and for each architecture we want to build, you can adjust these values to match your requirements.
If we focus on the conan install
task we can see:
We are passing a
--profile android
, so we need to create the proile. Go to theprofiles
folder in the conan config home directory (check it running conan config home) and create a file namedandroid
with the following contents:
include(default)
[settings]
os=Android
os.api_level=21
compiler=clang
compiler.version=12
compiler.libcxx=c++_static
compiler.cppstd=14
[conf]
tools.android:ndk_path=/Users/luism/Library/Android/sdk/ndk/21.4.7075529/
You might need to modify:
tools.android:ndk_path
conf: The location of the NDK provided by Android Studio. You should be able to see the path to the NDK if you open thecpp/includes
folder in your IDE.
compiler.version
: Check the NDK documentation or find abin
folder containing the compiler executables likex86_64-linux-android31-clang
. In a Macos installation it is found in the NDK path +toolchains/llvm/prebuilt/darwin-x86_64/bin
. Run./x86_64-linux-android31-clang --version
to check the runningclang
version and adjust the profile.
compiler.libcxx
: The supported values arec++_static
andc++_shared
.
compiler.cppstd
: The C++ standard version, this should be the value you selected in the Wizard.
os.api_level
: Use the same value you selected in the Wizard.We are passing
-c tools.cmake.cmake_layout:build_folder_vars=['settings.arch']
, thanks to that, Conan will create a different folder for the specifiedsettings.arch
so we can have all the configurations available at the same time.
To make Conan work we need to pass CMake a custom toolchain. We can do it introducing a single line in the same file, in the android/defaultConfig/externalNativeBuild/cmake
element:
build.gradle
android {
compileSdk 32
defaultConfig {
applicationId "com.example.myconanapp"
minSdk 21
targetSdk 21
versionCode 1
versionName "1.0"
testInstrumentationRunner "androidx.test.runner.AndroidJUnitRunner"
externalNativeBuild {
cmake {
cppFlags '-v'
arguments("-DCMAKE_TOOLCHAIN_FILE=conan_android_toolchain.cmake")
}
}
conan_android_toolchain.cmake
Create a file called conan_android_toolchain.cmake
in the cpp
folder, that file will be responsible of including the right toolchain depending on the ANDROID_ABI
variable that indicates the build configuration that the IDE is currently running:
conan_android_toolchain.cmake
# During multiple stages of CMake configuration, the toolchain file is processed and command-line
# variables may not be always available. The script exits prematurely if essential variables are absent.
if ( NOT ANDROID_ABI OR NOT CMAKE_BUILD_TYPE )
return()
endif()
if(${ANDROID_ABI} STREQUAL "x86_64")
include("${CMAKE_CURRENT_LIST_DIR}/build/x86_64/${CMAKE_BUILD_TYPE}/generators/conan_toolchain.cmake")
elseif(${ANDROID_ABI} STREQUAL "x86")
include("${CMAKE_CURRENT_LIST_DIR}/build/x86/${CMAKE_BUILD_TYPE}/generators/conan_toolchain.cmake")
elseif(${ANDROID_ABI} STREQUAL "arm64-v8a")
include("${CMAKE_CURRENT_LIST_DIR}/build/armv8/${CMAKE_BUILD_TYPE}/generators/conan_toolchain.cmake")
elseif(${ANDROID_ABI} STREQUAL "armeabi-v7a")
include("${CMAKE_CURRENT_LIST_DIR}/build/armv7/${CMAKE_BUILD_TYPE}/generators/conan_toolchain.cmake")
else()
message(FATAL "Not supported configuration")
endif()
CMakeLists.txt
Finally, we need to modify the CMakeLists.txt
to link with the zlib
library:
CMakeLists.txt
cmake_minimum_required(VERSION 3.18.1)
project("myconanapp")
add_library(myconanapp SHARED native-lib.cpp)
find_library(log-lib log)
find_package(ZLIB CONFIG)
target_link_libraries(myconanapp ${log-lib} ZLIB::ZLIB)
Building the application
If we build our project we can see that conan install is called multiple times building the different configurations of zlib
.
Then if we run the application in a Virtual Device or in a real device pairing it with the QR code we can see:
Once we have our project configured, it is very easy to change our dependencies and keep developing the application, for example, we can edit the conanfile.txt
file and change the zlib
to the version 1.12.2
:
[requires]
zlib/1.2.12
[generators]
CMakeToolchain
CMakeDeps
[layout]
cmake_layout
If we click build and then run the application, we will see that the zlib dependency has been updated: