Native Modules

Sometimes an app needs access to a platform API that React Native doesn't have a corresponding module for yet. Maybe you want to reuse some existing Java code without having to reimplement it in JavaScript, or write some high performance, multi-threaded code such as for image processing, a database, or any number of advanced extensions.

We designed React Native such that it is possible for you to write real native code and have access to the full power of the platform. This is a more advanced feature and we don't expect it to be part of the usual development process, however it is essential that it exists. If React Native doesn't support a native feature that you need, you should be able to build it yourself.

The Toast Module

This guide will use the Toast example. Let's say we would like to be able to create a toast message from JavaScript.

We start by creating a native module. A native module is a Java class that usually extends the ReactContextBaseJavaModule class and implements the functionality required by the JavaScript. Our goal here is to be able to write ToastAndroid.show('Awesome', ToastAndroid.SHORT); from JavaScript to display a short toast on the screen.

package com.facebook.react.modules.toast;

import android.widget.Toast;

import com.facebook.react.bridge.NativeModule;
import com.facebook.react.bridge.ReactApplicationContext;
import com.facebook.react.bridge.ReactContext;
import com.facebook.react.bridge.ReactContextBaseJavaModule;
import com.facebook.react.bridge.ReactMethod;

import java.util.Map;

public class ToastModule extends ReactContextBaseJavaModule {

  private static final String DURATION_SHORT_KEY = "SHORT";
  private static final String DURATION_LONG_KEY = "LONG";

  public ToastModule(ReactApplicationContext reactContext) {
    super(reactContext);
  }
}

ReactContextBaseJavaModule requires that a method called getName is implemented. The purpose of this method is to return the string name of the NativeModule which represents this class in JavaScript. So here we will call this ToastAndroid so that we can access it through React.NativeModules.ToastAndroid in JavaScript.

  @Override
  public String getName() {
    return "ToastAndroid";
  }

An optional method called getConstants returns the constant values exposed to JavaScript. Its implementation is not required but is very useful to key pre-defined values that need to be communicated from JavaScript to Java in sync.

  @Override
  public Map<String, Object> getConstants() {
    final Map<String, Object> constants = new HashMap<>();
    constants.put(DURATION_SHORT_KEY, Toast.LENGTH_SHORT);
    constants.put(DURATION_LONG_KEY, Toast.LENGTH_LONG);
    return constants;
  }

To expose a method to JavaScript a Java method must be annotated using @ReactMethod. The return type of bridge methods is always void. React Native bridge is asynchronous, so the only way to pass a result to JavaScript is by using callbacks or emitting events (see below).

  @ReactMethod
  public void show(String message, int duration) {
    Toast.makeText(getReactApplicationContext(), message, duration).show();
  }

Argument Types

The following argument types are supported for methods annotated with @ReactMethod and they directly map to their JavaScript equivalents

Boolean -> Bool
Integer -> Number
Double -> Number
Float -> Number
String -> String
Callback -> function
ReadableMap -> Object
ReadableArray -> Array

Read more about ReadableMap and ReadableArray

Register the Module

The last step within Java is to register the Module; this happens in the createNativeModules of your apps package. If a module is not registered it will not be available from JavaScript.

class AnExampleReactPackage implements ReactPackage {

  @Override
  public List<Class<? extends JavaScriptModule>> createJSModules() {
    return Collections.emptyList();
  }

  @Override
  public List<ViewManager> createViewManagers(ReactApplicationContext reactContext) {
    return Collections.emptyList();
  }

  @Override
  public List<NativeModule> createNativeModules(
                              ReactApplicationContext reactContext) {
    List<NativeModule> modules = new ArrayList<>();

    modules.add(new ToastModule(reactContext));

    return modules;
  }

The package needs to be provided in the getPackages method of the MainActivity.java file. This file exists under the android folder in your react-native application directory. The path to this file is: android/app/src/main/java/com/your-app-name/MainActivity.java.

protected List<ReactPackage> getPackages() {
    return Arrays.<ReactPackage>asList(
            new MainReactPackage(),
            new AnExampleReactPackage()); // <-- Add this line with your package name.
}

To make it simpler to access your new functionality from JavaScript, it is common to wrap the native module in a JavaScript module. This is not necessary but saves the consumers of your library the need to pull it off of NativeModules each time. This JavaScript file also becomes a good location for you to add any JavaScript side functionality.

'use strict';
/**
 * This exposes the native ToastAndroid module as a JS module. This has a
 * function 'show' which takes the following parameters:
 *
 * 1. String message: A string with the text to toast
 * 2. int duration: The duration of the toast. May be ToastAndroid.SHORT or
 *    ToastAndroid.LONG
 */
import { NativeModules } from 'react-native';
module.exports = NativeModules.ToastAndroid;

Now, from your other JavaScript file you can call the method like this:

import ToastAndroid from './ToastAndroid';

ToastAndroid.show('Awesome', ToastAndroid.SHORT);

Beyond Toasts

Callbacks

Native modules also support a special kind of argument - a callback. In most cases it is used to provide the function call result to JavaScript.

public class UIManagerModule extends ReactContextBaseJavaModule {

...

  @ReactMethod
  public void measureLayout(
      int tag,
      int ancestorTag,
      Callback errorCallback,
      Callback successCallback) {
    try {
      measureLayout(tag, ancestorTag, mMeasureBuffer);
      float relativeX = PixelUtil.toDIPFromPixel(mMeasureBuffer[0]);
      float relativeY = PixelUtil.toDIPFromPixel(mMeasureBuffer[1]);
      float width = PixelUtil.toDIPFromPixel(mMeasureBuffer[2]);
      float height = PixelUtil.toDIPFromPixel(mMeasureBuffer[3]);
      successCallback.invoke(relativeX, relativeY, width, height);
    } catch (IllegalViewOperationException e) {
      errorCallback.invoke(e.getMessage());
    }
  }

...

This method would be accessed in JavaScript using:

UIManager.measureLayout(
  100,
  100,
  (msg) => {
    console.log(msg);
  },
  (x, y, width, height) => {
    console.log(x + ':' + y + ':' + width + ':' + height);
  }
);

A native module is supposed to invoke its callback only once. It can, however, store the callback and invoke it later.

It is very important to highlight that the callback is not invoked immediately after the native function completes - remember that bridge communication is asynchronous, and this too is tied to the run loop.

Promises

Native modules can also fulfill a promise, which can simplify your code, especially when using ES2016's async/await syntax. When the last parameter of a bridged native method is a Promise, its corresponding JS method will return a JS Promise object.

Refactoring the above code to use a promise instead of callbacks looks like this:

public class UIManagerModule extends ReactContextBaseJavaModule {

...

  @ReactMethod
  public void measureLayout(
      int tag,
      int ancestorTag,
      Promise promise) {
    try {
      measureLayout(tag, ancestorTag, mMeasureBuffer);

      WritableMap map = Arguments.createMap();

      map.putDouble("relativeX", PixelUtil.toDIPFromPixel(mMeasureBuffer[0]));
      map.putDouble("relativeY", PixelUtil.toDIPFromPixel(mMeasureBuffer[1]));
      map.putDouble("width", PixelUtil.toDIPFromPixel(mMeasureBuffer[2]));
      map.putDouble("height", PixelUtil.toDIPFromPixel(mMeasureBuffer[3]));

      promise.resolve(map);
    } catch (IllegalViewOperationException e) {
      promise.reject(e);
    }
  }

...

The JavaScript counterpart of this method returns a Promise. This means you can use the await keyword within an async function to call it and wait for its result:

async function measureLayout() {
  try {
    var {
      relativeX,
      relativeY,
      width,
      height,
    } = await UIManager.measureLayout(100, 100);

    console.log(relativeX + ':' + relativeY + ':' + width + ':' + height);
  } catch (e) {
    console.error(e);
  }
}

measureLayout();

Threading

Native modules should not have any assumptions about what thread they are being called on, as the current assignment is subject to change in the future. If a blocking call is required, the heavy work should be dispatched to an internally managed worker thread, and any callbacks distributed from there.

Sending Events to JavaScript

Native modules can signal events to JavaScript without being invoked directly. The easiest way to do this is to use the RCTDeviceEventEmitter which can be obtained from the ReactContext as in the code snippet below.

...
private void sendEvent(ReactContext reactContext,
                       String eventName,
                       @Nullable WritableMap params) {
  reactContext
      .getJSModule(DeviceEventManagerModule.RCTDeviceEventEmitter.class)
      .emit(eventName, params);
}
...
WritableMap params = Arguments.createMap();
...
sendEvent(reactContext, "keyboardWillShow", params);

JavaScript modules can then register to receive events by addListenerOn using the Subscribable mixin

import { DeviceEventEmitter } from 'react-native';
...

var ScrollResponderMixin = {
  mixins: [Subscribable.Mixin],


  componentWillMount: function() {
    ...
    this.addListenerOn(DeviceEventEmitter,
                       'keyboardWillShow',
                       this.scrollResponderKeyboardWillShow);
    ...
  },
  scrollResponderKeyboardWillShow:function(e: Event) {
    this.keyboardWillOpenTo = e;
    this.props.onKeyboardWillShow && this.props.onKeyboardWillShow(e);
  },

You can also directly use the DeviceEventEmitter module to listen for events.

...
componentWillMount: function() {
  DeviceEventEmitter.addListener('keyboardWillShow', function(e: Event) {
    // handle event.
  });
}
...

Getting activity result from startActivityForResult

You'll need to listen to onActivityResult if you want to get results from an activity you started with startActivityForResult. To do this, the module must implement ActivityEventListener. Then, you need to register a listener in the module's constructor,

reactContext.addActivityEventListener(this);

Now you can listen to onActivityResult by implementing the following method:

@Override
public void onActivityResult(final int requestCode, final int resultCode, final Intent intent) {
  // Your logic here
}

We will implement a simple image picker to demonstrate this. The image picker will expose the method pickImage to JavaScript, which will return the path of the image when called.

public class ImagePickerModule extends ReactContextBaseJavaModule implements ActivityEventListener {

  private static final int IMAGE_PICKER_REQUEST = 467081;
  private static final String E_ACTIVITY_DOES_NOT_EXIST = "E_ACTIVITY_DOES_NOT_EXIST";
  private static final String E_PICKER_CANCELLED = "E_PICKER_CANCELLED";
  private static final String E_FAILED_TO_SHOW_PICKER = "E_FAILED_TO_SHOW_PICKER";
  private static final String E_NO_IMAGE_DATA_FOUND = "E_NO_IMAGE_DATA_FOUND";

  private Promise mPickerPromise;

  public ImagePickerModule(ReactApplicationContext reactContext) {
    super(reactContext);

    // Add the listener for `onActivityResult`
    reactContext.addActivityEventListener(this);
  }

  @Override
  public String getName() {
    return "ImagePickerModule";
  }

  @ReactMethod
  public void pickImage(final Promise promise) {
    Activity currentActivity = getCurrentActivity();

    if (currentActivity == null) {
      promise.reject(E_ACTIVITY_DOES_NOT_EXIST, "Activity doesn't exist");
      return;
    }

    // Store the promise to resolve/reject when picker returns data
    mPickerPromise = promise;

    try {
      final Intent galleryIntent = new Intent(Intent.ACTION_PICK);

      galleryIntent.setType("image/*");

      final Intent chooserIntent = Intent.createChooser(galleryIntent, "Pick an image");

      currentActivity.startActivityForResult(chooserIntent, IMAGE_PICKER_REQUEST);
    } catch (Exception e) {
      mPickerPromise.reject(E_FAILED_TO_SHOW_PICKER, e);
      mPickerPromise = null;
    }
  }

  // You can get the result here
  @Override
  public void onActivityResult(final int requestCode, final int resultCode, final Intent intent) {
    if (requestCode == IMAGE_PICKER_REQUEST) {
      if (mPickerPromise != null) {
        if (resultCode == Activity.RESULT_CANCELED) {
          mPickerPromise.reject(E_PICKER_CANCELLED, "Image picker was cancelled");
        } else if (resultCode == Activity.RESULT_OK) {
          Uri uri = intent.getData();

          if (uri == null) {
            mPickerPromise.reject(E_NO_IMAGE_DATA_FOUND, "No image data found");
          } else {
            mPickerPromise.resolve(uri.toString());
          }
        }

        mPickerPromise = null;
      }
    }
  }
}

Listening to LifeCycle events

Listening to the activity's LifeCycle events such as onResume, onPause etc. is very similar to how we implemented ActivityEventListener. The module must implement LifecycleEventListener. Then, you need to register a listener in the module's constructor,

reactContext.addLifecycleEventListener(this);

Now you can listen to the activity's LifeCycle events by implementing the following methods:

@Override
public void onHostResume() {
    // Actvity `onResume`
}

@Override
public void onHostPause() {
    // Actvity `onPause`
}

@Override
public void onHostDestroy() {
    // Actvity `onDestroy`
}
doc_React_Native
2016-06-23 04:24:34
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