我們都知道在Android中使用startActivityForResult打開一個新的活動,并得到回傳值,但這種方式存在一定的局限性,需要在一個Activity或者Fragment中才能實作,有的時候代碼架構的不同,可能這種方式并不能滿足我們的需要,比如在Adapter中實作跳轉等,下面提供一個優雅的方式,使得發起和獲取結果在同一處,便于我們操作,
提供一個可觀察的ActivityResult,并在訂閱的時候,將結果全部發射出去
class ActivityResultObservable<T> private constructor(private val subscribe: (ActivityResultCreateEmitter<T>) -> Unit) {
companion object {
@JvmStatic
fun <T> create(subscribe: (ActivityResultCreateEmitter<T>) -> Unit): ActivityResultObservable<T> = ActivityResultObservable(subscribe)
}
fun subscribe(onSuccess: (data: T) -> Unit) = subscribe(ActivityResultObserver(onSuccess = onSuccess))
fun subscribe(onSuccess: (data: T) -> Unit, onCanceled: () -> Unit) = subscribe(ActivityResultObserver(onSuccess = onSuccess, onCanceled = onCanceled))
fun subscribe(onSuccess: (data: T) -> Unit, onCanceled: () -> Unit, onDefined: (resultCode: Int, data: T?) -> Unit) =
subscribe(ActivityResultObserver(onSuccess = onSuccess, onCanceled = onCanceled, onDefined = onDefined))
fun subscribe(onBefore: () -> Unit,
onSuccess: (data: T) -> Unit,
onCanceled: () -> Unit,
onDefined: (resultCode: Int, data: T?) -> Unit) =
subscribe(ActivityResultObserver(onBefore, onSuccess, onCanceled, onDefined))
fun subscribe(observer: ActivityResultObserver<T>) {
val emitter = ActivityResultCreateEmitter(observer)
subscribe.invoke(emitter)
}
}
class ActivityResultCreateEmitter<T>(private val activityResultObserver: ActivityResultObserver<T>) {
/**
* this method invoke after onActivityResult, before [onSuccess] [onCanceled] [onDefined]
*/
fun onBefore() = activityResultObserver.onBefore.invoke()
fun onSuccess(data: T) = activityResultObserver.onSuccess.invoke(data)
fun onCanceled() = activityResultObserver.onCanceled.invoke()
fun onDefined(resultCode: Int, data: T?) = activityResultObserver.onDefined.invoke(resultCode, data)
}
class ActivityResultObserver<T>(val onBefore: () -> Unit = {},
val onSuccess: (T) -> Unit = {},
val onCanceled: () -> Unit = {},
val onDefined: (Int, T?) -> Unit = { _, _ -> })
object ActivityResultUtil {
private val codeGenerator = Random()
fun <M : Map<Int, *>> generateRequestCode(map: M): Int {
var requestCode: Int
do {
requestCode = codeGenerator.nextInt(0xFFFF)
} while (requestCode in map.keys)
return requestCode
}
}
通過對Activity和Fragment中提供擴展方法startActivityForResult(Intent,Bundle),回傳一個ActivityResultObservable的物件,
private const val FRAGMENT_TAG = "ActivityResultHelper_ActivityResultExecuteFragment_Tag"
private val resultHolder = LinkedHashMap<Int, ActivityResultCreateEmitter<Intent>>()
private fun getExecuteFragment(manager: android.app.FragmentManager): ActivityResultExecuteFragment {
return manager.findFragmentByTag(FRAGMENT_TAG) as? ActivityResultExecuteFragment
?: ActivityResultExecuteFragment().also {
manager.apply {
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.N) {
beginTransaction().replace(android.R.id.content, it, FRAGMENT_TAG).commitNowAllowingStateLoss()
} else {
beginTransaction().replace(android.R.id.content, it, FRAGMENT_TAG).commitAllowingStateLoss()
executePendingTransactions()
}
}
}
}
private fun getSupportExecuteFragment(manager: FragmentManager): ActivityResultSupportExecuteFragment {
return manager.findFragmentByTag(FRAGMENT_TAG) as? ActivityResultSupportExecuteFragment
?: ActivityResultSupportExecuteFragment().also {
manager.beginTransaction().replace(android.R.id.content, it, FRAGMENT_TAG).commitNowAllowingStateLoss()
}
}
fun <A : FragmentActivity> A.startActivityForResult(intent: Intent, options: Bundle? = null): ActivityResultObservable<Intent> {
//獲取一個與已有編碼不重復的編碼
val requestCode = ActivityResultUtil.generateRequestCode(resultHolder)
//獲取或創建SupportExecuteFragment
val executeFragment = getSupportExecuteFragment(supportFragmentManager)
//呼叫Fragment的startActivityForResult方法
return executeFragment.startActivityForResult(requestCode, intent, options)
}
fun <A : Activity> A.startActivityForResult(intent: Intent, options: Bundle? = null): ActivityResultObservable<Intent> {
if (this is FragmentActivity) {
return (this as FragmentActivity).startActivityForResult(intent, options)
}
//獲取一個與已有編碼不重復的編碼
val requestCode = ActivityResultUtil.generateRequestCode(resultHolder)
//獲取或創建ExecuteFragment
val executeFragment = getExecuteFragment(fragmentManager)
//呼叫Fragment的startActivityForResult方法
return executeFragment.startActivityForResult(requestCode, intent, options)
}
fun <F : Fragment> F.startActivityForResult(intent: Intent, options: Bundle? = null): ActivityResultObservable<Intent> {
//獲取一個與已有編碼不重復的編碼
val requestCode = ActivityResultUtil.generateRequestCode(resultHolder)
//獲取或創建SupportExecuteFragment
val executeFragment = getSupportExecuteFragment(activity!!.supportFragmentManager)
//呼叫Fragment的startActivityForResult方法
return executeFragment.startActivityForResult(requestCode, intent, options)
}
fun <F : android.app.Fragment> F.startActivityForResult(intent: Intent, options: Bundle? = null): ActivityResultObservable<Intent> {
if (this is Fragment) {
return (this as Fragment).startActivityForResult(intent, options)
}
//獲取一個與已有編碼不重復的編碼
val requestCode = ActivityResultUtil.generateRequestCode(resultHolder)
//獲取或創建ExecuteFragment
val executeFragment = getExecuteFragment(activity.fragmentManager)
//呼叫Fragment的startActivityForResult方法
return executeFragment.startActivityForResult(requestCode, intent, options)
}
internal class ActivityResultSupportExecuteFragment : Fragment() {
init {
retainInstance = true
}
internal fun startActivityForResult(requestCode: Int, intent: Intent, options: Bundle? = null): ActivityResultObservable<Intent> {
return ActivityResultObservable.create {
resultHolder[requestCode] = it
startActivityForResult(intent, requestCode, options)
}
}
override fun onActivityResult(requestCode: Int, resultCode: Int, data: Intent?) {
super.onActivityResult(requestCode, resultCode, data)
//取出與requestCode對應的物件,然后執行與resultCode對應的回呼
resultHolder.remove(requestCode)?.let {
it.onBefore()
when (resultCode) {
FragmentActivity.RESULT_OK -> it.onSuccess(data ?: Intent())
FragmentActivity.RESULT_CANCELED -> it.onCanceled()
else -> it.onDefined(resultCode, data)
}
}
}
}
internal class ActivityResultExecuteFragment : android.app.Fragment() {
init {
retainInstance = true
}
internal fun startActivityForResult(requestCode: Int, intent: Intent, options: Bundle? = null): ActivityResultObservable<Intent> {
return ActivityResultObservable.create {
resultHolder[requestCode] = it
startActivityForResult(intent, requestCode, options)
}
}
override fun onActivityResult(requestCode: Int, resultCode: Int, data: Intent?) {
super.onActivityResult(requestCode, resultCode, data)
//取出與requestCode對應的物件,然后執行與resultCode對應的回呼
resultHolder.remove(requestCode)?.let {
it.onBefore()
when (resultCode) {
FragmentActivity.RESULT_OK -> it.onSuccess(data ?: Intent())
FragmentActivity.RESULT_CANCELED -> it.onCanceled()
else -> it.onDefined(resultCode, data)
}
}
}
startActivityForResult(Intent(Intent.ACTION_GET_CONTENT).apply {
addFlags(Intent.FLAG_GRANT_PERSISTABLE_URI_PERMISSION)
addFlags(Intent.FLAG_GRANT_READ_URI_PERMISSION)
type = MiddleWareConst.IMAGE_TYPE
}).subscribe(onSuccess = {
//成功回呼
}, onCanceled = {
//取消回呼
}, onDefined = { _: Int, _: Intent? ->
//自定義code回呼
})
可以看出該方法最大的好處就是呼叫的和回呼的地方在一起,不需要自己通過onActivityResult來分發,且該實作方式侵入性很低,不需要額外提供Rxjava等第三方庫,
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