I am currently using a alarmmanager to start a service for posting of location to http. The problem is when the manager starts and run the services, the ui seems to stop for a while. i would to ask if the service thread is sepreated from the ui thread?
Copied From Android Docs :
Use IntentService if you dont want to fiddle with managing threads on your own. Or use AsyncTasks.
Please let me add the Application main thread is not always the UI thread ... For example, activity is stopped, the onStop() is in invoked, hence the UI thread is taken away from that activity and moved to another activity within the same or a different application.
However, it doesn't mean that this application is not longer active, farther more, if there is a started service that running in the background it may continue for a while till it terminates or android OS terminates it due to lack of resources. Who runs this service during that time? who does runs the onStop() or the onDestroy()? that would be application main thread doing that.
Most confusing issue has to do much with UI thread. Please understand, the UI thread is kind of "Singleton". Only one visible activity at the time can use it. Either application main thread is "Joined"/"Attached" to UI thread or another on gets it. It doesn't mean that that application doesn't have a main thread of its own.
The roots for this behavior comes from Linux\Unix foundations. What most developers not familiar with is that application is a "user" within the Linux\Unix OS.
Whenever application is invoked, it is much like a user logged into the system. In the application case, the user id is the unique application id, while no password is required. The new logged in user (hence, android application) gets a process and resources such as instance of Java Virtual Machine. The process is dedicated for this user and the resources included quota in the file system and file descriptors and handlers allow it to communicate with the OS.
The android application main thread is the root thread that is created from the process android OS hands to that application. Any new threads are created in this application will always return to the main thread. One of system resources that application main thread can gain access to it the UI thread. Gain, hence it can ask for, it doesn't mean that the system with grant it. In case the application process exceed from it's allowed memory allocation, the android OS, may decide not to grant the access to the UI thread and farther more, destroy the application and terminate the process.
It is possible to define more than on process for an application (Unix process fork) via definition in the manifest.xml. This solution is applicable, but please bear in mind that the resources are different, hence that, each process will have its own VM, such that different objects are maintained in the different process will not be able to share information via the same JVM heap ...
I hope that this explanation is making clear one and for all what is the the main thread and the UI thread and how it has to do with services.
From android developer:
What is a Service?
Most confusion about the Service class actually revolves around what it is not:
A Service is not a separate process. The Service object itself does not imply it is running in its own process; unless otherwise specified, it runs in the same process as the application it is part of. A Service is not a thread. It is not a means itself to do work off of the main thread (to avoid Application Not Responding errors). Thus a Service itself is actually very simple, providing two main features:
A facility for the application to tell the system about something it wants to be doing in the background (even when the user is not directly interacting with the application). This corresponds to calls to Context.startService(), which ask the system to schedule work for the service, to be run until the service or someone else explicitly stop it. A facility for an application to expose some of its functionality to other applications. This corresponds to calls to Context.bindService(), which allows a long-standing connection to be made to the service in order to interact with it. When a Service component is actually created, for either of these reasons, all that the system actually does is instantiate the component and call its onCreate() and any other appropriate callbacks on the main thread. It is up to the Service to implement these with the appropriate behavior, such as creating a secondary thread in which it does its work.
Note that because Service itself is so simple, you can make your interaction with it as simple or complicated as you want: from treating it as a local Java object that you make direct method calls on (as illustrated by Local Service Sample), to providing a full remoteable interface using AIDL.