Flutter Android多窗口方案落地(上)
前言
Flutter在桌面端的多窗口需求,一直是个历史巨坑。随着Flutter的技术在我们windows、android桌面设备落地,我们发现多窗口需求必不可少,突破这个技术壁垒已经刻不容缓。
实现原理
1. 基本原理
对于Android移动设备来说,多窗口的应用大多是用于直播/音视频的悬浮弹窗,让用户离开应用后还能在小窗口中观看内容。实现原理是通过WindowManager创建和管理窗口,包括视图内容、拖拽、事件等操作。
我们都清楚Flutter只是一个可以做业务逻辑的UI框架,在Flutter中想要实现多窗口,也必须依赖Android的窗口管理机制。基于原生的Window,显示Flutter绘制的UI,从而实现跨平台的视图交互和业务逻辑。
2. 具体步骤
Android端基于Window Manager创建Window,管理窗口的生命周期和拖拽逻辑;使用FlutterEngineGroup来管理Flutter Engine,通过引擎吸附Flutter的UI,加入到原生的FlutterView;把FlutterView通过addView的方式加入到Window上。
3. 原理图
插件实现
基于上述原理,可以在Android的窗口显示Flutter的UI。但要真正提供给Flutter层使用,还需要再封装一个插件层。
通过单例管理多个窗口 由于是多窗口,可能项目中多个地方都会调用到,因此需要使用单例来统一管理所有窗口的生命周期,保证准确创建、及时销毁。
//引擎生命钩子回调,让调用方感知引擎状态
interface EngineCallback {
fun onCreate(id:String)
fun onEngineDestroy(id: String)
}
class EngineManager private constructor(context: Context) {
// 单例对象
companion object :
SingletonHolder<EngineManager, Context>(::EngineManager)
// 窗口类型;如果是单一类型,那么同名窗口将返回上一次的未销毁的实例。
private val TYPE_SINGLE: String = "single"
init {
Log.d("EngineManager", "EngineManager init")
}
data class Entry(
val engine: FlutterEngine,
val window: AndroidWindow?
)
private var myContext: Context = context
private var engineGroup: FlutterEngineGroup = FlutterEngineGroup(myContext)
// 每个窗口对应一个引擎,基于引擎ID和名称存储多窗口的信息,以及查找
private val engineMap = ConcurrentHashMap<String, Entry>() //搜索引擎,用作消息分发
private val name2IdMap = ConcurrentHashMap<String, String>() //判断是否存在了任务
private val id2NameMap = ConcurrentHashMap<String, String>() //根据任务获取name并清除
private val engineCallback =
ConcurrentHashMap<String, EngineCallback>() //通知调用方引擎状态 0-create 1-attach 2-destroy
fun showWindow(
params: HashMap<String, Any>,
engineStatusCallback: EngineCallback
): String? {
val entry: String?
if (params.containsKey("entryPoint")) {
entry = params["entryPoint"] as String
} else {
return null
}
val name: String?
if (params.containsKey("name")) {
name = params["name"] as String
} else {
return null
}
val type = params["type"]
if (type == TYPE_SINGLE && name2IdMap[name] != null) {
return name2IdMap[name]
}
val windowUid = UUID.randomUUID().toString()
if (type == TYPE_SINGLE) {
name2IdMap[name] = windowUid
id2NameMap[windowUid] = name
engineCallback[windowUid] = engineStatusCallback
}
val dartEntrypoint = DartExecutor.DartEntrypoint(findAppBundlePath(), entry)
val args = mutableListOf(windowUid)
var user: List<String>? = null
if (params.containsKey("params")) {
user = params["params"] as List<String>
}
if (user != null) {
args.addAll(user)
}
// 把调用方传递的参数回调给Flutter
val option =
FlutterEngineGroup.Options(myContext).setDartEntrypoint(dartEntrypoint)
.setDartEntrypointArgs(
args
)
val engine = engineGroup.createAndRunEngine(option)
val draggable = params["draggable"] as Boolean? ?: true
val width = params["width"] as Int? ?: 0
val height = params["height"] as Int? ?: 0
val config = GravityConfig()
config.paddingX = params["paddingX"] as Double? ?: 0.0
config.paddingY = params["paddingY"] as Double? ?: 0.0
config.gravityX = GravityForX.values()[params["gravityX"] as Int? ?: 1]
config.gravityY = GravityForY.values()[params["gravityY"] as Int? ?: 1]
// 把创建好的引擎传给AndroidWindow,由其去创建窗口
val androidWindow =
AndroidWindow(myContext, draggable, width, height, config, engine)
engineMap[windowUid] = Entry(engine, androidWindow)
androidWindow.open()
engine.platformViewsController.attach(
myContext,
engine.renderer,
engine.dartExecutor
)
return windowUid
}
fun setPosition(id: String?, x: Int, y: Int): Boolean {
id ?: return false
val entry = engineMap[id]
entry ?: return false
entry.window?.setPosition(x, y)
return true
}
fun setSize(id: String?, width: double, height: double): Boolean {
// ......
}
}
通过代码我们可以看到,每个窗口都对应一个engine,通过name和生成的UUID做唯一标识,然后把engine传给AndroidWindow,在那里加入WindowManger,以及Flutter UI的获取。
AndroidWindow的实现;通过
context.getSystemService(Service.WINDOW_SERVICE) as WindowManager获取窗口管理器;同时创建FlutterView和LayoutInfalter,通过engine拿到视图吸附到FlutterView,把FlutterView加到Layout中,最后把Layout通过addView加到WindowManager中显示。
class AndroidWindow(
private val context: Context,
private val draggable: Boolean,
private val width: Int,
private val height: Int,
private val config: GravityConfig,
private val engine: FlutterEngine
) {
private var startX = 0f
private var startY = 0f
private var initialX = 0
private var initialY = 0
private var dragging = false
private lateinit var flutterView: FlutterView
private var windowManager = context.getSystemService(Service.WINDOW_SERVICE) as WindowManager
private val inflater =
context.getSystemService(Service.LAYOUT_INFLATER_SERVICE) as LayoutInflater
private val metrics = DisplayMetrics()
@SuppressLint("InflateParams")
private var rootView = inflater.inflate(R.layout.floating, null, false) as ViewGroup
private val layoutParams = WindowManager.LayoutParams(
dip2px(context, width.toFloat()),
dip2px(context, height.toFloat()),
WindowManager.LayoutParams.TYPE_SYSTEM_ALERT, // 系统应用才可使用此类型
WindowManager.LayoutParams.FLAG_NOT_FOCUSABLE,
PixelFormat.TRANSLUCENT
)
fun open() {
@Suppress("Deprecation")
windowManager.defaultDisplay.getMetrics(metrics)
layoutParams.gravity = Gravity.START or Gravity.TOP
selectMeasurementMode()
// 设置位置
val screenWidth = metrics.widthPixels
val screenHeight = metrics.heightPixels
when (config.gravityX) {
GravityForX.Left -> layoutParams.x = config.paddingX!!.toInt()
GravityForX.Center -> layoutParams.x =
((screenWidth - layoutParams.width) / 2 + config.paddingX!!).toInt()
GravityForX.Right -> layoutParams.x =
(screenWidth - layoutParams.width - config.paddingX!!).toInt()
null -> {}
}
when (config.gravityY) {
GravityForY.Top -> layoutParams.y = config.paddingY!!.toInt()
GravityForY.Center -> layoutParams.y =
((screenHeight - layoutParams.height) / 2 + config.paddingY!!).toInt()
GravityForY.Bottom -> layoutParams.y =
(screenHeight - layoutParams.height - config.paddingY!!).toInt()
null -> {}
}
windowManager.addView(rootView, layoutParams)
flutterView = FlutterView(inflater.context, FlutterSurfaceView(inflater.context, true))
flutterView.attachToFlutterEngine(engine)
if (draggable) {
@Suppress("ClickableViewAccessibility")
flutterView.setOnTouchListener { _, event ->
when (event.action) {
MotionEvent.ACTION_MOVE -> {
if (dragging) {
setPosition(
initialX + (event.rawX - startX).roundToInt(),
initialY + (event.rawY - startY).roundToInt()
)
}
}
MotionEvent.ACTION_UP -> {
dragEnd()
}
MotionEvent.ACTION_DOWN -> {
startX = event.rawX
startY = event.rawY
initialX = layoutParams.x
initialY = layoutParams.y
dragStart()
windowManager.updateViewLayout(rootView, layoutParams)
}
}
false
}
}
@Suppress("ClickableViewAccessibility")
rootView.setOnTouchListener { _, event ->
when (event.action) {
MotionEvent.ACTION_DOWN -> {
layoutParams.flags =
layoutParams.flags or WindowManager.LayoutParams.FLAG_NOT_FOCUSABLE
windowManager.updateViewLayout(rootView, layoutParams)
true
}
else -> false
}
}
engine.lifecycleChannel.appIsResumed()
rootView.findViewById<FrameLayout>(R.id.floating_window)
.addView(
flutterView,
ViewGroup.LayoutParams(
ViewGroup.LayoutParams.MATCH_PARENT,
ViewGroup.LayoutParams.MATCH_PARENT
)
)
windowManager.updateViewLayout(rootView, layoutParams)
}
// .....
续:Flutter Android多窗口方案落地(下)
作者:Karl_wei
来源:juejin.cn/post/7198824926722949179
