ui/kotlinx-coroutines-android/src/HandlerDispatcher.kt - platform/external/kotlinx.coroutines - Gitiles

 /*
  * Copyright 2016-2021 JetBrains s.r.o. Use of this source code is governed by the Apache 2.0 license.
  */

 @file:Suppress("unused")

 package kotlinx.coroutines.android

 import android.os.*
 import android.view.*
 import androidx.annotation.*
 import kotlinx.coroutines.*
 import kotlinx.coroutines.internal.*
 import java.lang.reflect.*
 import kotlin.coroutines.*

 /**
  * Dispatches execution onto Android [Handler].
  *
  * This class provides type-safety and a point for future extensions.
  */
 public sealed class HandlerDispatcher : MainCoroutineDispatcher(), Delay {
     /**
      * Returns dispatcher that executes coroutines immediately when it is already in the right context
      * (current looper is the same as this handler's looper) without an additional [re-dispatch][CoroutineDispatcher.dispatch].
      * This dispatcher does not use [Handler.post] when current looper is the same as looper of the handler.
      *
      * Immediate dispatcher is safe from stack overflows and in case of nested invocations forms event-loop similar to [Dispatchers.Unconfined].
      * The event loop is an advanced topic and its implications can be found in [Dispatchers.Unconfined] documentation.
      *
      * Example of usage:
      * ```
      * suspend fun updateUiElement(val text: String) {
      *   /*
      *    * If it is known that updateUiElement can be invoked both from the Main thread and from other threads,
      *    * `immediate` dispatcher is used as a performance optimization to avoid unnecessary dispatch.
      *    *
      *    * In that case, when `updateUiElement` is invoked from the Main thread, `uiElement.text` will be
      *    * invoked immediately without any dispatching, otherwise, the `Dispatchers.Main` dispatch cycle via
      *    * `Handler.post` will be triggered.
      *    */
      *   withContext(Dispatchers.Main.immediate) {
      *     uiElement.text = text
      *   }
      *   // Do context-independent logic such as logging
      * }
      * ```
      */
     public abstract override val immediate: HandlerDispatcher
 }

 internal class AndroidDispatcherFactory : MainDispatcherFactory {

     override fun createDispatcher(allFactories: List<MainDispatcherFactory>): MainCoroutineDispatcher {
         val mainLooper = Looper.getMainLooper() ?: throw IllegalStateException("The main looper is not available")
         return HandlerContext(mainLooper.asHandler(async = true))
     }

     override fun hintOnError(): String = "For tests Dispatchers.setMain from kotlinx-coroutines-test module can be used"

     override val loadPriority: Int
         get() = Int.MAX_VALUE / 2
 }

 /**
  * Represents an arbitrary [Handler] as an implementation of [CoroutineDispatcher]
  * with an optional [name] for nicer debugging
  *
  * ## Rejected execution
  *
  * If the underlying handler is closed and its message-scheduling methods start to return `false` on
  * an attempt to submit a continuation task to the resulting dispatcher,
  * then the [Job] of the affected task is [cancelled][Job.cancel] and the task is submitted to the
  * [Dispatchers.IO], so that the affected coroutine can cleanup its resources and promptly complete.
  */
 @JvmName("from") // this is for a nice Java API, see issue #255
 @JvmOverloads
 public fun Handler.asCoroutineDispatcher(name: String? = null): HandlerDispatcher =
     HandlerContext(this, name)

 private const val MAX_DELAY = Long.MAX_VALUE / 2 // cannot delay for too long on Android

 @VisibleForTesting
 internal fun Looper.asHandler(async: Boolean): Handler {
     // Async support was added in API 16.
     if (!async || Build.VERSION.SDK_INT < 16) {
         return Handler(this)
     }

     if (Build.VERSION.SDK_INT >= 28) {
         // TODO compile against API 28 so this can be invoked without reflection.
         val factoryMethod = Handler::class.java.getDeclaredMethod("createAsync", Looper::class.java)
         return factoryMethod.invoke(null, this) as Handler
     }

     val constructor: Constructor<Handler>
     try {
         constructor = Handler::class.java.getDeclaredConstructor(Looper::class.java,
             Handler.Callback::class.java, Boolean::class.javaPrimitiveType)
     } catch (ignored: NoSuchMethodException) {
         // Hidden constructor absent. Fall back to non-async constructor.
         return Handler(this)
     }
     return constructor.newInstance(this, null, true)
 }

 @JvmField
 @Deprecated("Use Dispatchers.Main instead", level = DeprecationLevel.HIDDEN)
 internal val Main: HandlerDispatcher? = runCatching { HandlerContext(Looper.getMainLooper().asHandler(async = true)) }.getOrNull()

 /**
  * Implements [CoroutineDispatcher] on top of an arbitrary Android [Handler].
  */
 internal class HandlerContext private constructor(
     private val handler: Handler,
     private val name: String?,
     private val invokeImmediately: Boolean
 ) : HandlerDispatcher(), Delay {
     /**
      * Creates [CoroutineDispatcher] for the given Android [handler].
      *
      * @param handler a handler.
      * @param name an optional name for debugging.
      */
     constructor(
         handler: Handler,
         name: String? = null
     ) : this(handler, name, false)

     @Volatile
     private var _immediate: HandlerContext? = if (invokeImmediately) this else null

     override val immediate: HandlerContext = _immediate ?:
         HandlerContext(handler, name, true).also { _immediate = it }

     override fun isDispatchNeeded(context: CoroutineContext): Boolean {
         return !invokeImmediately || Looper.myLooper() != handler.looper
     }

     override fun dispatch(context: CoroutineContext, block: Runnable) {
         if (!handler.post(block)) {
             cancelOnRejection(context, block)
         }
     }

     override fun scheduleResumeAfterDelay(timeMillis: Long, continuation: CancellableContinuation<Unit>) {
         val block = Runnable {
             with(continuation) { resumeUndispatched(Unit) }
         }
         if (handler.postDelayed(block, timeMillis.coerceAtMost(MAX_DELAY))) {
             continuation.invokeOnCancellation { handler.removeCallbacks(block) }
         } else {
             cancelOnRejection(continuation.context, block)
         }
     }

     override fun invokeOnTimeout(timeMillis: Long, block: Runnable, context: CoroutineContext): DisposableHandle {
         if (handler.postDelayed(block, timeMillis.coerceAtMost(MAX_DELAY))) {
             return DisposableHandle { handler.removeCallbacks(block) }
         }
         cancelOnRejection(context, block)
         return NonDisposableHandle
     }

     private fun cancelOnRejection(context: CoroutineContext, block: Runnable) {
         context.cancel(CancellationException("The task was rejected, the handler underlying the dispatcher '${toString()}' was closed"))
         Dispatchers.IO.dispatch(context, block)
     }

     override fun toString(): String = toStringInternalImpl() ?: run {
         val str = name ?: handler.toString()
         if (invokeImmediately) "$str.immediate" else str
     }

     override fun equals(other: Any?): Boolean = other is HandlerContext && other.handler === handler
     override fun hashCode(): Int = System.identityHashCode(handler)
 }

 @Volatile
 private var choreographer: Choreographer? = null

 /**
  * Awaits the next animation frame and returns frame time in nanoseconds.
  */
 public suspend fun awaitFrame(): Long {
     // fast path when choreographer is already known
     val choreographer = choreographer
     if (choreographer != null) {
         return suspendCancellableCoroutine { cont ->
             postFrameCallback(choreographer, cont)
         }
     }
     // post into looper thread to figure it out
     return suspendCancellableCoroutine { cont ->
         Dispatchers.Main.dispatch(EmptyCoroutineContext, Runnable {
             updateChoreographerAndPostFrameCallback(cont)
         })
     }
 }

 private fun updateChoreographerAndPostFrameCallback(cont: CancellableContinuation<Long>) {
     val choreographer = choreographer ?:
     Choreographer.getInstance()!!.also { choreographer = it }
     postFrameCallback(choreographer, cont)
 }

 private fun postFrameCallback(choreographer: Choreographer, cont: CancellableContinuation<Long>) {
     choreographer.postFrameCallback { nanos ->
         with(cont) { Dispatchers.Main.resumeUndispatched(nanos) }
     }
 }
	/*
	* Copyright 2016-2021 JetBrains s.r.o. Use of this source code is governed by the Apache 2.0 license.
	*/

	@file:Suppress("unused")

	package kotlinx.coroutines.android

	import android.os.*
	import android.view.*
	import androidx.annotation.*
	import kotlinx.coroutines.*
	import kotlinx.coroutines.internal.*
	import java.lang.reflect.*
	import kotlin.coroutines.*

	/**
	* Dispatches execution onto Android [Handler].
	*
	* This class provides type-safety and a point for future extensions.
	*/
	public sealed class HandlerDispatcher : MainCoroutineDispatcher(), Delay {
	/**
	* Returns dispatcher that executes coroutines immediately when it is already in the right context
	* (current looper is the same as this handler's looper) without an additional [re-dispatch][CoroutineDispatcher.dispatch].
	* This dispatcher does not use [Handler.post] when current looper is the same as looper of the handler.
	*
	* Immediate dispatcher is safe from stack overflows and in case of nested invocations forms event-loop similar to [Dispatchers.Unconfined].
	* The event loop is an advanced topic and its implications can be found in [Dispatchers.Unconfined] documentation.
	*
	* Example of usage:
	* ```
	* suspend fun updateUiElement(val text: String) {
	* /*
	* * If it is known that updateUiElement can be invoked both from the Main thread and from other threads,
	* * `immediate` dispatcher is used as a performance optimization to avoid unnecessary dispatch.
	* *
	* * In that case, when `updateUiElement` is invoked from the Main thread, `uiElement.text` will be
	* * invoked immediately without any dispatching, otherwise, the `Dispatchers.Main` dispatch cycle via
	* * `Handler.post` will be triggered.
	* */
	* withContext(Dispatchers.Main.immediate) {
	* uiElement.text = text
	* }
	* // Do context-independent logic such as logging
	* }
	* ```
	*/
	public abstract override val immediate: HandlerDispatcher
	}

	internal class AndroidDispatcherFactory : MainDispatcherFactory {

	override fun createDispatcher(allFactories: List<MainDispatcherFactory>): MainCoroutineDispatcher {
	val mainLooper = Looper.getMainLooper() ?: throw IllegalStateException("The main looper is not available")
	return HandlerContext(mainLooper.asHandler(async = true))
	}

	override fun hintOnError(): String = "For tests Dispatchers.setMain from kotlinx-coroutines-test module can be used"

	override val loadPriority: Int
	get() = Int.MAX_VALUE / 2
	}

	/**
	* Represents an arbitrary [Handler] as an implementation of [CoroutineDispatcher]
	* with an optional [name] for nicer debugging
	*
	* ## Rejected execution
	*
	* If the underlying handler is closed and its message-scheduling methods start to return `false` on
	* an attempt to submit a continuation task to the resulting dispatcher,
	* then the [Job] of the affected task is [cancelled][Job.cancel] and the task is submitted to the
	* [Dispatchers.IO], so that the affected coroutine can cleanup its resources and promptly complete.
	*/
	@JvmName("from") // this is for a nice Java API, see issue #255
	@JvmOverloads
	public fun Handler.asCoroutineDispatcher(name: String? = null): HandlerDispatcher =
	HandlerContext(this, name)

	private const val MAX_DELAY = Long.MAX_VALUE / 2 // cannot delay for too long on Android

	@VisibleForTesting
	internal fun Looper.asHandler(async: Boolean): Handler {
	// Async support was added in API 16.
	if (!async \|\| Build.VERSION.SDK_INT < 16) {
	return Handler(this)
	}

	if (Build.VERSION.SDK_INT >= 28) {
	// TODO compile against API 28 so this can be invoked without reflection.
	val factoryMethod = Handler::class.java.getDeclaredMethod("createAsync", Looper::class.java)
	return factoryMethod.invoke(null, this) as Handler
	}

	val constructor: Constructor<Handler>
	try {
	constructor = Handler::class.java.getDeclaredConstructor(Looper::class.java,
	Handler.Callback::class.java, Boolean::class.javaPrimitiveType)
	} catch (ignored: NoSuchMethodException) {
	// Hidden constructor absent. Fall back to non-async constructor.
	return Handler(this)
	}
	return constructor.newInstance(this, null, true)
	}

	@JvmField
	@Deprecated("Use Dispatchers.Main instead", level = DeprecationLevel.HIDDEN)
	internal val Main: HandlerDispatcher? = runCatching { HandlerContext(Looper.getMainLooper().asHandler(async = true)) }.getOrNull()

	/**
	* Implements [CoroutineDispatcher] on top of an arbitrary Android [Handler].
	*/
	internal class HandlerContext private constructor(
	private val handler: Handler,
	private val name: String?,
	private val invokeImmediately: Boolean
	) : HandlerDispatcher(), Delay {
	/**
	* Creates [CoroutineDispatcher] for the given Android [handler].
	*
	* @param handler a handler.
	* @param name an optional name for debugging.
	*/
	constructor(
	handler: Handler,
	name: String? = null
	) : this(handler, name, false)

	@Volatile
	private var _immediate: HandlerContext? = if (invokeImmediately) this else null

	override val immediate: HandlerContext = _immediate ?:
	HandlerContext(handler, name, true).also { _immediate = it }

	override fun isDispatchNeeded(context: CoroutineContext): Boolean {
	return !invokeImmediately \|\| Looper.myLooper() != handler.looper
	}

	override fun dispatch(context: CoroutineContext, block: Runnable) {
	if (!handler.post(block)) {
	cancelOnRejection(context, block)
	}
	}

	override fun scheduleResumeAfterDelay(timeMillis: Long, continuation: CancellableContinuation<Unit>) {
	val block = Runnable {
	with(continuation) { resumeUndispatched(Unit) }
	}
	if (handler.postDelayed(block, timeMillis.coerceAtMost(MAX_DELAY))) {
	continuation.invokeOnCancellation { handler.removeCallbacks(block) }
	} else {
	cancelOnRejection(continuation.context, block)
	}
	}

	override fun invokeOnTimeout(timeMillis: Long, block: Runnable, context: CoroutineContext): DisposableHandle {
	if (handler.postDelayed(block, timeMillis.coerceAtMost(MAX_DELAY))) {
	return DisposableHandle { handler.removeCallbacks(block) }
	}
	cancelOnRejection(context, block)
	return NonDisposableHandle
	}

	private fun cancelOnRejection(context: CoroutineContext, block: Runnable) {
	context.cancel(CancellationException("The task was rejected, the handler underlying the dispatcher '${toString()}' was closed"))
	Dispatchers.IO.dispatch(context, block)
	}

	override fun toString(): String = toStringInternalImpl() ?: run {
	val str = name ?: handler.toString()
	if (invokeImmediately) "$str.immediate" else str
	}

	override fun equals(other: Any?): Boolean = other is HandlerContext && other.handler === handler
	override fun hashCode(): Int = System.identityHashCode(handler)
	}

	@Volatile
	private var choreographer: Choreographer? = null

	/**
	* Awaits the next animation frame and returns frame time in nanoseconds.
	*/
	public suspend fun awaitFrame(): Long {
	// fast path when choreographer is already known
	val choreographer = choreographer
	if (choreographer != null) {
	return suspendCancellableCoroutine { cont ->
	postFrameCallback(choreographer, cont)
	}
	}
	// post into looper thread to figure it out
	return suspendCancellableCoroutine { cont ->
	Dispatchers.Main.dispatch(EmptyCoroutineContext, Runnable {
	updateChoreographerAndPostFrameCallback(cont)
	})
	}
	}

	private fun updateChoreographerAndPostFrameCallback(cont: CancellableContinuation<Long>) {
	val choreographer = choreographer ?:
	Choreographer.getInstance()!!.also { choreographer = it }
	postFrameCallback(choreographer, cont)
	}

	private fun postFrameCallback(choreographer: Choreographer, cont: CancellableContinuation<Long>) {
	choreographer.postFrameCallback { nanos ->
	with(cont) { Dispatchers.Main.resumeUndispatched(nanos) }
	}
	}