Android 原生UI组件
原生模块和原生组件是我们传统架构中使用的稳定技术。 当新架构稳定后,它们将被弃用。新架构使用TurboModule和Fabric 组件来实现类似的功能。
在如今的 App 中,已经有成千上万的原生 UI 部件了——其中的一些是平台的一部分,另一些可能来自于一些第三方库,而且可能你自己还收藏了很多。React Native 已经封装了大部分最常见的组件,譬如ScrollView
和TextInput
,但不可能封装全部组件。而且,说不定你曾经为自己以前的 App 还封装过一些组件,React Native 肯定没法包含它们。幸运的是,在 React Naitve 应用程序中封装和植入已有的组件非常简单。
和原生模块向导一样,本向导也是一个相对高级的向导,我们假设你已经对 Android 编程颇有经验。本向导会引导你如何构建一个原生 UI 组件,带领你了解 React Native 核心库中ImageView
组件的具体实现。
您还可以通过一个命令来配置生成包含原生组件的本地库模板。阅读本地库设置指南以获取更多详细信息。
ImageView 示例
在这个例子里,我们来看看为了让 JavaScript 中可以使用 ImageView,需要做哪些准备工作。
原生视图需要被一个ViewManager
的派生类(或者更常见的,SimpleViewManager
的派生类)创建和管理。一个SimpleViewManager
可以用于这个场景,是因为它能够包含更多公共的属性,譬如背景颜色、透明度、Flexbox 布局等等。
这些子类本质上都是单例——React Native 只会为每个管理器创建一个实例。它们创建原生的视图并提供给NativeViewHierarchyManager
,NativeViewHierarchyManager 则会反过来委托它们在需要的时候去设置和更新视图的属性。ViewManager
还会代理视图的所有委托,并给 JavaScript 发回对应的事件。
提供原生视图很简单:
- 创建一个 ViewManager 的子类。
- 实现
createViewInstance
方法。 - 导出视图的属性设置器:使用
@ReactProp
(或@ReactPropGroup
)注解。 - 把这个视图管理类注册到应用程序包的
createViewManagers
里。 - 实现 JavaScript 模块。
1. 创建ViewManager
的子类
在这个例子里我们创建一个视图管理类ReactImageManager
,它继承自SimpleViewManager<ReactImageView>
。ReactImageView
是这个视图管理类所管理的对象类型,也就是我们自定义的原生视图。getName
方法返回的名字会用于在 JavaScript 端引用。
- kotlin
- java
class ReactImageManager(
private val callerContext: ReactApplicationContext
) : SimpleViewManager<ReactImageView>() {
override fun getName() = REACT_CLASS
companion object {
const val REACT_CLASS = "RCTImageView"
}
}
public class ReactImageManager extends SimpleViewManager<ReactImageView> {
public static final String REACT_CLASS = "RCTImageView";
ReactApplicationContext mCallerContext;
public ReactImageManager(ReactApplicationContext reactContext) {
mCallerContext = reactContext;
}
@Override
public String getName() {
return REACT_CLASS;
}
}
2. 实现方法createViewInstance
视图在createViewInstance
中创建,且应当把自己初始化为默认的状态。所有属性的设置都通过后续的updateView
来进行。
- kotlin
- java
override fun createViewInstance(context: ThemedReactContext) =
ReactImageView(context, Fresco.newDraweeControllerBuilder(), null, callerContext)
@Override
public ReactImageView createViewInstance(ThemedReactContext context) {
return new ReactImageView(context, Fresco.newDraweeControllerBuilder(), null, mCallerContext);
}
3. 通过@ReactProp
(或@ReactPropGroup
)注解来导出属性的设置方法。
要导出给 JavaScript 使用的属性,需要申明带有@ReactProp
(或@ReactPropGroup
)注解的设置方法。方法的第一个参数是要修改属性的视图实例,第二个参数是要设置的属性 值。方法的返回值类型必须为void
,在 Kotlin 中是 Unit
,而且访问控制必须被声明为public
。JavaScript 所得知的属性类型会由该方法第二个参数的类型来自动决定。支持的类型有:boolean
, int
, float
, double
, String
, Boolean
, Integer
, ReadableArray
, ReadableMap
。Kotlin 中对应的则是 Boolean
, Int
, Float
, Double
, String
, ReadableArray
, ReadableMap
.
@ReactProp
注解必须包含一个字符串类型的参数name
。这个参数指定了对应属性在 JavaScript 端的名字。
除了name
,@ReactProp
注解还接受这些可选的参数:defaultBoolean
, defaultInt
, defaultFloat
。这些参数必须是对应的基础类型的值(也就是对应 Java 中的 boolean
, int
, float
, 或是 Kotlin 中的 Boolean
, Int
, Float
),这些值会被传递给 setter 方法,以免 JavaScript 端某些情况下在组件中移除了对应的属性。注意这个"默认"值只对基本类型生效,对于其他的类型而言,当对应的属性删除时,null
会作为默认值提供给方法。
使用@ReactPropGroup
来注解的设置方法和@ReactProp
不同。请参见@ReactPropGroup
注解类源代码中的文档来获取更多详情。
重要! 在 ReactJS 里,修改一个属性会引发一次对设置方法的调用。有一种修改情况是,移除掉之前设置的属性。在这种情况下设置方法也一样会被调用,并且“默认”值会被作为参数提供(对于基础类型来说可以通过defaultBoolean
、defaultFloat
等@ReactProp
的属性提供,而对于复杂类型来说参数则会设置为null
)
- kotlin
- java
@ReactProp(name = "src")
fun setSrc(view: ReactImageView, sources: ReadableArray?) {
view.setSource(sources)
}
@ReactProp(name = "borderRadius", defaultFloat = 0f)
override fun setBorderRadius(view: ReactImageView, borderRadius: Float) {
view.setBorderRadius(borderRadius)
}
@ReactProp(name = ViewProps.RESIZE_MODE)
fun setResizeMode(view: ReactImageView, resizeMode: String?) {
view.setScaleType(ImageResizeMode.toScaleType(resizeMode))
}
@ReactProp(name = "src")
public void setSrc(ReactImageView view, @Nullable ReadableArray sources) {
view.setSource(sources);
}
@ReactProp(name = "borderRadius", defaultFloat = 0f)
public void setBorderRadius(ReactImageView view, float borderRadius) {
view.setBorderRadius(borderRadius);
}
@ReactProp(name = ViewProps.RESIZE_MODE)
public void setResizeMode(ReactImageView view, @Nullable String resizeMode) {
view.setScaleType(ImageResizeMode.toScaleType(resizeMode));
}
4. 注册ViewManager
最后一步就是把视图控制器注册到应用中。这和原生模块的注册方法类似,唯一的区别是我们把它放到createViewManagers
方法的返回值里。
- kotlin
- java
override fun createViewManagers(
reactContext: ReactApplicationContext
) = listOf(ReactImageManager(reactContext))
@Override
public List<ViewManager> createViewManagers(
ReactApplicationContext reactContext) {
return Arrays.<ViewManager>asList(
new ReactImageManager(reactContext)
);
}
完成上面这些代码后,请一定记得要重新编译!(运行yarn android
命令)
5. 实现对应的 JavaScript 模块
整个过程的最后一步就是创建 JavaScript 模块并且定义 Java 和 JavaScript 之间的接口层。我们建议你使用 TypeScript 来规范定义接口的具体结构,或者至少用注释说明清楚(老版本的 RN 使用propTypes
来规范接口定义,这一做法已不再支持)。
import { requireNativeComponent } from 'react-native';
/**
* Composes `View`.
*
* - src: Array<{url: string}>
* - borderRadius: number
* - resizeMode: 'cover' | 'contain' | 'stretch'
*/
export default requireNativeComponent('RCTImageView');
requireNativeComponent
目前只接受一个参数,即原生视图的名字。如果你还需要做一些复杂的逻辑譬如事件处理,那么可以把原生组件用一个普通 React 组件封装。后文的MyCustomView
例子里演示了这种用法。
事件
现在我们已经知道了怎么导出一个原生视图组件,并且我们可以在 JS 里很方便的控制它了。不过我们怎么才能处理来自用户的事件,譬如缩放操作或者拖动?当一个原生事件发生的时候,它应该也能触发 JavaScript 端视图上的事件,这两个视图会依据getId()
而关联在一起。
- kotlin
- java
class MyCustomView(context: Context) : View(context) {
...
fun onReceiveNativeEvent() {
val event = Arguments.createMap().apply {
putString("message", "MyMessage")
}
val reactContext = context as ReactContext
reactContext
.getJSModule(RCTEventEmitter::class.java)
.receiveEvent(id, "topChange", event)
}
}
class MyCustomView extends View {
...
public void onReceiveNativeEvent() {
WritableMap event = Arguments.createMap();
event.putString("message", "MyMessage");
ReactContext reactContext = (ReactContext)getContext();
reactContext
.getJSModule(RCTEventEmitter.class)
.receiveEvent(getId(), "topChange", event);
}
}
要把事件名topChange
映射到 JavaScript 端的onChange
回调属性上,需要在你的ViewManager
中覆盖getExportedCustomBubblingEventTypeConstants
方法,并在其中进行注册:
- kotlin
- java
class ReactImageManager : SimpleViewManager<MyCustomView>() {
...
override fun getExportedCustomBubblingEventTypeConstants(): Map<String, Any> {
return mapOf(
"topChange" to mapOf(
"phasedRegistrationNames" to mapOf(
"bubbled" to "onChange"
)
)
)
}
}
public class ReactImageManager extends SimpleViewManager<MyCustomView> {
...
public Map getExportedCustomBubblingEventTypeConstants() {
return MapBuilder.builder().put(
"topChange",
MapBuilder.of(
"phasedRegistrationNames",
MapBuilder.of("bubbled", "onChange")
)
).build();
}
}
这个回调会传递一个原生事件对象,一般来 说我们会在封装组件里进行处理以便外部使用:
import React, { useCallback } from 'react';
const MyCustomView = ({ onChangeMessage, ...props }) => {
const onChange = useCallback((event) => {
if (!onChangeMessage) {
return;
}
onChangeMessage(event.nativeEvent.message);
}, [onChangeMessage]);
return (
<RCTMyCustomView
{...props}
onChange={onChange}
/>
);
};
const RCTMyCustomView = requireNativeComponent(`RCTMyCustomView`);
与 Android Fragment 的整合实例
为了将现有的原生 UI 元素整合到 React Native 应用中,你可能需要使用 Android Fragments 来对本地组件进行更精细的控制,而不是从 ViewManager
返回一个 View
。如果你想在生命周期方法的帮助下添加与视图绑定的自定义逻辑,如onViewCreated
、onPause
、onResume
,你会用得到它。下面的步骤将告诉你如何做到这一点:
1. 创建一个自定义视图
首先,我们创建一个继承自FrameLayout
的CustomView
类(这个视图的内容可以是您想要渲染的任何视图)
- kotlin
- java
// replace with your package
package com.mypackage
import android.content.Context
import android.graphics.Color
import android.widget.FrameLayout
import android.widget.TextView
class CustomView(context: Context) : FrameLayout(context) {
init {
// set padding and background color
setPadding(16,16,16,16)
setBackgroundColor(Color.parseColor("#5FD3F3"))
// add default text view
addView(TextView(context).apply {
text = "Welcome to Android Fragments with React Native."
})
}
}
// replace with your package
package com.mypackage;
import android.content.Context;
import android.graphics.Color;
import android.widget.FrameLayout;
import android.widget.ImageView;
import android.widget.TextView;
import androidx.annotation.NonNull;
public class CustomView extends FrameLayout {
public CustomView(@NonNull Context context) {
super(context);
// set padding and background color
this.setPadding(16,16,16,16);
this.setBackgroundColor(Color.parseColor("#5FD3F3"));
// add default text view
TextView text = new TextView(context);
text.setText("Welcome to Android Fragments with React Native.");
this.addView(text);
}
}
2. 创建一个 Fragment
- kotlin
- java
// replace with your package
package com.mypackage
import android.os.Bundle
import android.view.LayoutInflater
import android.view.View
import android.view.ViewGroup
import androidx.fragment.app.Fragment
// replace with your view's import
import com.mypackage.CustomView
class MyFragment : Fragment() {
private lateinit var customView: CustomView
override fun onCreateView(inflater: LayoutInflater, container: ViewGroup?, savedInstanceState: Bundle?): View {
super.onCreateView(inflater, container, savedInstanceState)
customView = CustomView(requireNotNull(context))
return customView // this CustomView could be any view that you want to render
}
override fun onViewCreated(view: View, savedInstanceState: Bundle?) {
super.onViewCreated(view, savedInstanceState)
// do any logic that should happen in an `onCreate` method, e.g:
// customView.onCreate(savedInstanceState);
}
override fun onPause() {
super.onPause()
// do any logic that should happen in an `onPause` method
// e.g.: customView.onPause();
}
override fun onResume() {
super.onResume()
// do any logic that should happen in an `onResume` method
// e.g.: customView.onResume();
}
override fun onDestroy() {
super.onDestroy()
// do any logic that should happen in an `onDestroy` method
// e.g.: customView.onDestroy();
}
}
// replace with your package
package com.mypackage;
import android.os.Bundle;
import android.view.LayoutInflater;
import android.view.View;
import android.view.ViewGroup;
import androidx.fragment.app.Fragment;
// replace with your view's import
import com.mypackage.CustomView;
public class MyFragment extends Fragment {
CustomView customView;
@Override
public View onCreateView(LayoutInflater inflater, ViewGroup parent, Bundle savedInstanceState) {
super.onCreateView(inflater, parent, savedInstanceState);
customView = new CustomView(this.getContext());
return customView; // this CustomView could be any view that you want to render
}
@Override
public void onViewCreated(View view, Bundle savedInstanceState) {
super.onViewCreated(view, savedInstanceState);
// do any logic that should happen in an `onCreate` method, e.g:
// customView.onCreate(savedInstanceState);
}
@Override
public void onPause() {
super.onPause();
// do any logic that should happen in an `onPause` method
// e.g.: customView.onPause();
}
@Override
public void onResume() {
super.onResume();
// do any logic that should happen in an `onResume` method
// e.g.: customView.onResume();
}
@Override
public void onDestroy() {
super.onDestroy();
// do any logic that should happen in an `onDestroy` method
// e.g.: customView.onDestroy();
}
}
3. 创建 ViewManager
子类
- kotlin
- java
// replace with your package
package com.mypackage
import android.view.Choreographer
import android.view.View
import android.view.ViewGroup
import android.widget.FrameLayout
import androidx.fragment.app.FragmentActivity
import com.facebook.react.bridge.ReactApplicationContext
import com.facebook.react.bridge.ReadableArray
import com.facebook.react.uimanager.ThemedReactContext
import com.facebook.react.uimanager.ViewGroupManager
import com.facebook.react.uimanager.annotations.ReactPropGroup
class MyViewManager(
private val reactContext: ReactApplicationContext
) : ViewGroupManager<FrameLayout>() {
private var propWidth: Int? = null
private var propHeight: Int? = null
override fun getName() = REACT_CLASS
/**
* Return a FrameLayout which will later hold the Fragment
*/
override fun createViewInstance(reactContext: ThemedReactContext) =
FrameLayout(reactContext)
/**
* Map the "create" command to an integer
*/
override fun getCommandsMap() = mapOf("create" to COMMAND_CREATE)
/**
* Handle "create" command (called from JS) and call createFragment method
*/
override fun receiveCommand(
root: FrameLayout,
commandId: String,
args: ReadableArray?
) {
super.receiveCommand(root, commandId, args)
val reactNativeViewId = requireNotNull(args).getInt(0)
when (commandId.toInt()) {
COMMAND_CREATE -> createFragment(root, reactNativeViewId)
}
}
@ReactPropGroup(names = ["width", "height"], customType = "Style")
fun setStyle(view: FrameLayout, index: Int, value: Int) {
if (index == 0) propWidth = value
if (index == 1) propHeight = value
}
/**
* Replace your React Native view with a custom fragment
*/
fun createFragment(root: FrameLayout, reactNativeViewId: Int) {
val parentView = root.findViewById<ViewGroup>(reactNativeViewId)
setupLayout(parentView)
val myFragment = MyFragment()
val activity = reactContext.currentActivity as FragmentActivity
activity.supportFragmentManager
.beginTransaction()
.replace(reactNativeViewId, myFragment, reactNativeViewId.toString())
.commit()
}
fun setupLayout(view: View) {
Choreographer.getInstance().postFrameCallback(object: Choreographer.FrameCallback {
override fun doFrame(frameTimeNanos: Long) {
manuallyLayoutChildren(view)
view.viewTreeObserver.dispatchOnGlobalLayout()
Choreographer.getInstance().postFrameCallback(this)
}
})
}
/**
* Layout all children properly
*/
private fun manuallyLayoutChildren(view: View) {
// propWidth and propHeight coming from react-native props
val width = requireNotNull(propWidth)
val height = requireNotNull(propHeight)
view.measure(
View.MeasureSpec.makeMeasureSpec(width, View.MeasureSpec.EXACTLY),
View.MeasureSpec.makeMeasureSpec(height, View.MeasureSpec.EXACTLY))
view.layout(0, 0, width, height)
}
companion object {
private const val REACT_CLASS = "MyViewManager"
private const val COMMAND_CREATE = 1
}
}
// replace with your package
package com.mypackage;
import android.view.Choreographer;
import android.view.View;
import android.view.ViewGroup;
import android.widget.FrameLayout;
import androidx.annotation.NonNull;
import androidx.annotation.Nullable;
import androidx.fragment.app.FragmentActivity;
import com.facebook.react.bridge.ReactApplicationContext;
import com.facebook.react.bridge.ReadableArray;
import com.facebook.react.common.MapBuilder;
import com.facebook.react.uimanager.annotations.ReactProp;
import com.facebook.react.uimanager.annotations.ReactPropGroup;
import com.facebook.react.uimanager.ViewGroupManager;
import com.facebook.react.uimanager.ThemedReactContext;
import java.util.Map;
public class MyViewManager extends ViewGroupManager<FrameLayout> {
public static final String REACT_CLASS = "MyViewManager";
public final int COMMAND_CREATE = 1;
private int propWidth;
private int propHeight;
ReactApplicationContext reactContext;
public MyViewManager(ReactApplicationContext reactContext) {
this.reactContext = reactContext;
}
@Override
public String getName() {
return REACT_CLASS;
}
/**
* Return a FrameLayout which will later hold the Fragment
*/
@Override
public FrameLayout createViewInstance(ThemedReactContext reactContext) {
return new FrameLayout(reactContext);
}
/**
* Map the "create" command to an integer
*/
@Nullable
@Override
public Map<String, Integer> getCommandsMap() {
return MapBuilder.of("create", COMMAND_CREATE);
}
/**
* Handle "create" command (called from JS) and call createFragment method
*/
@Override
public void receiveCommand(
@NonNull FrameLayout root,
String commandId,
@Nullable ReadableArray args
) {
super.receiveCommand(root, commandId, args);
int reactNativeViewId = args.getInt(0);
int commandIdInt = Integer.parseInt(commandId);
switch (commandIdInt) {
case COMMAND_CREATE:
createFragment(root, reactNativeViewId);
break;
default: {}
}
}
@ReactPropGroup(names = {"width", "height"}, customType = "Style")
public void setStyle(FrameLayout view, int index, Integer value) {
if (index == 0) {
propWidth = value;
}
if (index == 1) {
propHeight = value;
}
}
/**
* Replace your React Native view with a custom fragment
*/
public void createFragment(FrameLayout root, int reactNativeViewId) {
ViewGroup parentView = (ViewGroup) root.findViewById(reactNativeViewId);
setupLayout(parentView);
final MyFragment myFragment = new MyFragment();
FragmentActivity activity = (FragmentActivity) reactContext.getCurrentActivity();
activity.getSupportFragmentManager()
.beginTransaction()
.replace(reactNativeViewId, myFragment, String.valueOf(reactNativeViewId))
.commit();
}
public void setupLayout(View view) {
Choreographer.getInstance().postFrameCallback(new Choreographer.FrameCallback() {
@Override
public void doFrame(long frameTimeNanos) {
manuallyLayoutChildren(view);
view.getViewTreeObserver().dispatchOnGlobalLayout();
Choreographer.getInstance().postFrameCallback(this);
}
});
}
/**
* Layout all children properly
*/
public void manuallyLayoutChildren(View view) {
// propWidth and propHeight coming from react-native props
int width = propWidth;
int height = propHeight;
view.measure(
View.MeasureSpec.makeMeasureSpec(width, View.MeasureSpec.EXACTLY),
View.MeasureSpec.makeMeasureSpec(height, View.MeasureSpec.EXACTLY));
view.layout(0, 0, width, height);
}
}
4. 注册 ViewManager
- kotlin
- java
// replace with your package
package com.mypackage
import com.facebook.react.ReactPackage
import com.facebook.react.bridge.ReactApplicationContext
import com.facebook.react.uimanager.ViewManager
class MyPackage : ReactPackage {
...
override fun createViewManagers(
reactContext: ReactApplicationContext
) = listOf(MyViewManager(reactContext))
}
// replace with your package
package com.mypackage;
import com.facebook.react.ReactPackage;
import com.facebook.react.bridge.ReactApplicationContext;
import com.facebook.react.uimanager.ViewManager;
import java.util.Arrays;
import java.util.List;
public class MyPackage implements ReactPackage {
@Override
public List<ViewManager> createViewManagers(ReactApplicationContext reactContext) {
return Arrays.<ViewManager>asList(
new MyViewManager(reactContext)
);
}
}
5. 注册 Package
- kotlin
- java
override fun getPackages(): List<ReactPackage> =
PackageList(this).packages.apply {
// Packages that cannot be autolinked yet can be added manually here, for example:
// add(MyReactNativePackage())
add(MyAppPackage())
}
@Override
protected List<ReactPackage> getPackages() {
List<ReactPackage> packages = new PackageList(this).getPackages();
// Packages that cannot be autolinked yet can be added manually here, for example:
// packages.add(new MyReactNativePackage());
packages.add(new MyAppPackage());
return packages;
}
6. 执行 JavaScript 模块
I. MyViewManager.tsx
import { requireNativeComponent } from 'react-native';
export const MyViewManager =
requireNativeComponent('MyViewManager');
II. MyView.tsx
调用 create
方法
import React, { useEffect, useRef } from 'react';
import { UIManager, findNodeHandle } from 'react-native';
import { MyViewManager } from './my-view-manager';
const createFragment = viewId =>
UIManager.dispatchViewManagerCommand(
viewId,
// we are calling the 'create' command
UIManager.MyViewManager.Commands.create.toString(),
[viewId],
);
export const MyView = ({ style }) => {
const ref = useRef(null);
useEffect(() => {
const viewId = findNodeHandle(ref.current);
createFragment(viewId!);
}, []);
return (
<MyViewManager
style={{
...(style || {}),
height: style && style.height !== undefined ? style.height || '100%',
width: style && style.width !== undefined ? style.width || '100%'
}}
ref={ref}
/>
);
};
如果您想使用公开属性设置器 @ReactProp
(or @ReactPropGroup
) 详见上面的 ImageView 示例。