This guide describes how to integrate in-app reviews in your app using native (C or C++) code. There are separate integration guides if you are using Kotlin or Java or Unity.
Native SDK overview
The Play Core Native SDK is part of Google Play Core libraries
family. The Play Core Native SDK includes a C header file, review.h
, that
wraps ReviewManager
from the Java Play In-App Review libraries. This header file allows your app to
call the API directly from your native code. For an overview of the public
functions that are available, see the Play Review native module
documentation.
ReviewManager_requestReviewFlow
starts a request that gathers the information that is required to launch the
in-app review flow later. You can track the result of the request using
ReviewManager_getReviewStatus
.
For more information about all the statuses that ReviewManager_getReviewStatus
can return, see ReviewErrorCode
.
Both the request and launch functions return REVIEW_NO_ERROR
if the
function succeeds.
Set up your development environment
Download Play Core Native SDK
Before downloading, you must agree to the following terms and conditions.
Terms and Conditions
Last modified: September 24, 2020- By using the Play Core Software Development Kit, you agree to these terms in addition to the Google APIs Terms of Service ("API ToS"). If these terms are ever in conflict, these terms will take precedence over the API ToS. Please read these terms and the API ToS carefully.
- For purposes of these terms, "APIs" means Google's APIs, other developer services, and associated software, including any Redistributable Code.
- “Redistributable Code” means Google-provided object code or header files that call the APIs.
- Subject to these terms and the terms of the API ToS, you may copy and distribute Redistributable Code solely for inclusion as part of your API Client. Google and its licensors own all right, title and interest, including any and all intellectual property and other proprietary rights, in and to Redistributable Code. You will not modify, translate, or create derivative works of Redistributable Code.
- Google may make changes to these terms at any time with notice and the opportunity to decline further use of the Play Core Software Development Kit. Google will post notice of modifications to the terms at https://developer.android.com/guide/playcore/license. Changes will not be retroactive.
Do either of the following:
- Install Android Studio version 4.0 or higher. Use the SDK Manager UI to install Android SDK Platform version 10.0 (API level 29).
- Install the Android SDK command-line tools
and use
sdkmanager
to install Android SDK Platform version 10.0 (API level 29).
Prepare Android Studio for native development by using the SDK Manager to install the latest CMake and Android Native Development Kit (NDK). For more information on creating or importing native projects, see Getting Started with the NDK.
Download the zip file and extract it alongside your project.
Download Link Size SHA-256 Checksum 37.8 MiB 9db60185185342f28d2c278b60222333608c67bc022e458a25224eaea8c4c4b7 Update your app’s
build.gradle
file as shown below:Groovy
// App build.gradle plugins { id 'com.android.application' } // Define a path to the extracted Play Core SDK files. // If using a relative path, wrap it with file() since CMake requires absolute paths. def playcoreDir = file('../path/to/playcore-native-sdk') android { defaultConfig { ... externalNativeBuild { cmake { // Define the PLAYCORE_LOCATION directive. arguments "-DANDROID_STL=c++_static", "-DPLAYCORE_LOCATION=$playcoreDir" } } ndk { // Skip deprecated ABIs. Only required when using NDK 16 or earlier. abiFilters 'armeabi-v7a', 'arm64-v8a', 'x86', 'x86_64' } } buildTypes { release { // Include Play Core Library proguard config files to strip unused code while retaining the Java symbols needed for JNI. proguardFile '$playcoreDir/proguard/common.pgcfg' proguardFile '$playcoreDir/proguard/gms_task.pgcfg' proguardFile '$playcoreDir/proguard/per-feature-proguard-files' ... } debug { ... } } externalNativeBuild { cmake { path 'src/main/CMakeLists.txt' } } } dependencies { // Import these feature-specific AARs for each Google Play Core library. implementation 'com.google.android.play:app-update:2.1.0' implementation 'com.google.android.play:asset-delivery:2.3.0' implementation 'com.google.android.play:integrity:1.4.0' implementation 'com.google.android.play:review:2.0.2' // Import these common dependencies. implementation 'com.google.android.gms:play-services-tasks:18.0.2' implementation files("$playcoreDir/playcore-native-metadata.jar") ... }
Kotlin
// App build.gradle plugins { id("com.android.application") } // Define a path to the extracted Play Core SDK files. // If using a relative path, wrap it with file() since CMake requires absolute paths. val playcoreDir = file("../path/to/playcore-native-sdk") android { defaultConfig { ... externalNativeBuild { cmake { // Define the PLAYCORE_LOCATION directive. arguments += listOf("-DANDROID_STL=c++_static", "-DPLAYCORE_LOCATION=$playcoreDir") } } ndk { // Skip deprecated ABIs. Only required when using NDK 16 or earlier. abiFilters.clear() abiFilters += listOf("armeabi-v7a", "arm64-v8a", "x86", "x86_64") } } buildTypes { release { // Include Play Core Library proguard config files to strip unused code while retaining the Java symbols needed for JNI. proguardFile("$playcoreDir/proguard/common.pgcfg") proguardFile("$playcoreDir/proguard/gms_task.pgcfg") proguardFile("$playcoreDir/proguard/per-feature-proguard-files") ... } debug { ... } } externalNativeBuild { cmake { path = "src/main/CMakeLists.txt" } } } dependencies { // Import these feature-specific AARs for each Google Play Core library. implementation("com.google.android.play:app-update:2.1.0") implementation("com.google.android.play:asset-delivery:2.3.0") implementation("com.google.android.play:integrity:1.4.0") implementation("com.google.android.play:review:2.0.2") // Import these common dependencies. implementation("com.google.android.gms:play-services-tasks:18.0.2") implementation(files("$playcoreDir/playcore-native-metadata.jar")) ... }
Update your app’s
CMakeLists.txt
files as shown below:cmake_minimum_required(VERSION 3.6) ... # Add a static library called “playcore” built with the c++_static STL. include(${PLAYCORE_LOCATION}/playcore.cmake) add_playcore_static_library() // In this example “main” is your native code library, i.e. libmain.so. add_library(main SHARED ...) target_include_directories(main PRIVATE ${PLAYCORE_LOCATION}/include ...) target_link_libraries(main android playcore ...)
Data Collection
The Play Core Native SDK may collect version related data to allow Google to improve the product, including:
- App’s package name
- App’s package version
- Play Core Native SDK's version
This data will be collected when you upload your app package
to the Play Console. To opt-out of this data collection process, remove the
$playcoreDir/playcore-native-metadata.jar
import in the build.gradle file.
Note, this data collection related to your use of the Play Core Native SDK and Google’s use of the collected data is separate and independent of Google’s collection of library dependencies declared in Gradle when you upload your app package to the Play Console.
After you integrate the Play Core Native SDK into your project, include the following line in files that contain API calls:
Include review.h
After integrating the Play Core Native SDK into your project, include the following line in files that will contain API calls:
#include "play/review.h"
Initialize the Review API
Whenever you want to use the API, you must initialize it first by calling the
ReviewManager_init
function, as shown in the following example built with
android_native_app_glue.h
:
void android_main(android_app* app) {
app->onInputEvent = HandleInputEvent;
ReviewErrorCode error_code = ReviewManager_init(app->activity->vm, app->activity->clazz);
if (error_code == REVIEW_NO_ERROR) {
// You can use the API.
}
}
Request the in-app review flow
Follow the guidance about when to request in-app
reviews to determine good points
in your app's user flow to prompt the user for a review (for example, after a
user dismisses the summary screen at the end of a level in a game). When your
app gets close one of these points, call
ReviewManager_requestReviewFlow
to asynchronously request the information that your app needs to launch an
in-app review flow. Monitor the progress of the
ReviewManager_requestReviewFlow
operation by calling
ReviewManager_getReviewStatus
,
for example once every frame. This might take up to a couple of seconds, so you
should start this process before your app reaches the point when you want to
show the in-app review flow.
ReviewErrorCode error_code = ReviewManager_requestReviewFlow();
if (error_code == REVIEW_NO_ERROR) {
// The request has successfully started, check the status using
// ReviewManager_getReviewStatus.
} else {
// Error such as REVIEW_PLAY_STORE_NOT_FOUND indicating that the in-app
// review isn't currently possible.
}
Handle statuses and launch the in-app review flow
Whenever a request has started or the in-app review flow is launched, you can
check the status using
ReviewManager_getReviewStatus
.
This allows you to define the logic depending on the API status. One way to
approach this is to keep the status as a global variable and check whether the
status is REVIEW_REQUEST_FLOW_COMPLETED
when the user performs a certain
action (for example, tapping a “Next Level” button in a game), as shown in the
following example:
ReviewStatus status;
ReviewErrorCode error_code = ReviewManager_getReviewStatus(&status);
if (error_code != REVIEW_NO_ERROR) {
// There was an error with the most recent operation.
return;
}
switch (status) {
case REVIEW_REQUEST_FLOW_PENDING:
// Request is ongoing. The flow can't be launched yet.
break;
case REVIEW_REQUEST_FLOW_COMPLETED:
// Request completed. The flow can be launched now.
break;
case REVIEW_LAUNCH_FLOW_PENDING:
// The review flow is ongoing, meaning the dialog might be displayed.
break;
case REVIEW_LAUNCH_FLOW_COMPLETED:
// The review flow has finished. Continue with your app flow (for
// example, move to the next screen).
break;
default:
// Unknown status.
break;
}
When the status is REVIEW_REQUEST_FLOW_COMPLETED
and your app is ready, launch
the in-app review flow:
// This call uses android_native_app_glue.h. ReviewErrorCode error_code = ReviewManager_launchReviewFlow(app->activity->clazz); if (error_code != REVIEW_NO_ERROR) { // There was an error while launching the flow. return; }
After launching the in-app review flow, keep checking the status for completion and continue with your app flow. A common way to handle this, would be by following the Game Loop pattern.
Free resources
Don't forget to free resources by calling the ReviewManager_destroy
function once your app has finished using the API (for example, after the in-app
review flow is completed).
void ReviewManager_destroy();
Next steps
Test your app's in-app review flow to verify that your integration is working correctly.