How to force main Acivity to wait for subactivity in Android?
I am calling a subactivity from main activity. This subactivity should take few numbers from use开发者_如何学Pythonr (i'm using Edit text control to achieve this), save them to static variable in another class and terminate. I want main activity to wait for subactivity but both are just running simultaneously. Even doing sth like that doesn't help:
Thread t = new Thread(new Runnable(){
public void run(){
Log.v("==================", "run "+new Date());
startActivityForResult(new Intent(ctx,myCustomSubactivity.class),1);
} });
Log.v("==================", "calling run "+new Date());
t.start();
try {
t.join();
} catch (InterruptedException e) {Log.v("==================", "can't join");}
Log.v("==================", "back from activity "+new Date());
do you know how to force main activity to wait? Thread.wait() method is not supported in Android(program throws error).
May be I'm missing something but why don't just use startActivityForResult
and onActivityResult
mechanism? You could get result from you subactivity from intent it was resulted with.
Edit: BTW as far as I understand, if you will run Object.wait()
from Activity
code if will hold UI tread whitch can result in Application not responding
error.
I agree with Nikolay this is definitely the android way to do this.
Start the subactivity with startActivityForResult in the sub activity use setResult to add an result code and an intent with all the numbers you need in the data bundle.
In your first activity overwrite onActivityResult and retrieve the numbers from the Intent.
If you use the static variable this seems easier in the first moment but it is very insecure and there are some cases this may not work. If your program is send to the background your activities will be saved but if the phone runs low on memory the system will close your program and after the user resumes it everything looks like the moment the user left it but the static variables will be recreated to their initialization value.
Try to get used to the way the android activity lifecycle works. Using this approach will result in fewer used memory and a much better user experience.
Check out the Notepad example, it covers exactly this situation. And as others have said, the Android way is to have your first activity start up your second activity (not sub-activity!) and asynchronously listen for a response (not pause or wait, no need for joining, etc.).
Well... you can do it like this (btw, there's not straight forward way):
Have a singleton class, let's call it Monitor:
public class Singleton
{
private Singleton() { }
private static Singleton instance = new Singleton();
public static Singleton getInstance() {
return instance;
}
}
public class ParentActivity extends Activity
{
private void startAndWait()
{
Intent i = new Intent();
// initialize i
startActivityForResult(i);
Singleton si = Singleton.getInstance();
synchronized(si)
{
si.wait();
}
//do remaining work
}
}
public class ChildActivity extends Activity
{
protected void onCreate(Bundle savedInstance)
{
//do all the work
Singleton si = Singleton.getInstance();
synchronized(si)
{
si.notify();
}
}
}
I'm not here to judge if it's a good pattern or not but if you really need an activity to wait for a sub-activity, you can try this approach:
- define an object (lock) over which the two activities get synchronized; this can (should) also work as the object to exchange data between those two activities and thus should be defined as static
- in parent activity, start an async task (as the UI main thread cannot be in waiting state)
- in the async task, start your sub-activity
- the async task waits on the lock till it gets notified
- the sub-activity does whatever it needs and notifies the waiting thread when it finishes
I did a similar thing in my app and IMHO had a good reason for this (not to bother a user with login screen upon app start or resume, the app tries to re-use credentials stored in a secured place and only in case it fails, it shows this login screen. So yes, basically any activity in my app can get "paused" and waits till the user provides correct credentials in the login activity upon which the login screen finishes and the app continues exactly where it got paused (in the parent activity).
In the code it would be something like this:
ParentActivity:
public class ParentActivity extends Activity {
private static final String TAG = ParentActivity.class.getSimpleName();
public static class Lock {
private boolean condition;
public boolean conditionMet() {
return condition;
}
public void setCondition(boolean condition) {
this.condition = condition;
}
}
public static final Lock LOCK = new Lock();
@Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.parent_layout);
// do whatever logic you need and anytime you need to stat sub-activity
new ParentAsyncTask().execute(false);
}
private class ParentAsyncTask extends AsyncTask<Boolean, Void, Boolean> {
@Override
protected Boolean doInBackground(Boolean... params) {
// do what you need and if you decide to stop this activity and wait for the sub-activity, do this
Intent i = new Intent(ParentActivity.this, ChildActivity.class);
startActivity(i);
synchronized (LOCK) {
while (!LOCK.conditionMet()) {
try {
LOCK.wait();
} catch (InterruptedException e) {
Log.e(TAG, "Exception when waiting for condition", e);
return false;
}
}
}
return true;
}
}
}
ChildActivity:
public class ChildActivity extends Activity {
@Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.child_layout);
// do whatever you need in child activity, but once you want to finish, do this and continue in parent activity
synchronized (ParentActivity.LOCK) {
ParentActivity.LOCK.setCondition(true);
ParentActivity.LOCK.notifyAll();
}
finish();
// if you need the stuff to run in background, use AsyncTask again, just please note that you need to
// start the async task using executeOnExecutor method as you need more executors (one is already occupied), like this:
// new ChildAsyncTask().executeOnExecutor(ChildAsyncTask.THREAD_POOL_EXECUTOR, false);
}
}
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