In this document
Key classes
Related samples
Introduced in Android 3.0, loaders make it easy to asynchronously load data in an activity or fragment. Loaders have these characteristics:
-
They are available to every
Activity
andFragment
. - They provide asynchronous loading of data.
- They monitor the source of their data and deliver new results when the content changes.
- They automatically reconnect to the last loader's cursor when being recreated after a configuration change. Thus, they don't need to re-query their data.
Loader API Summary
There are multiple classes and interfaces that may be involved in using loaders in an application. They are summarized in this table:
Class/Interface | Description |
---|---|
LoaderManager
|
An abstract class associated with an
Activity
or
Fragment
for managing one or more
Loader
instances. This helps an application manage
longer-running operations in conjunction with the
Activity
or
Fragment
lifecycle; the most common use of this is with a
CursorLoader
, however applications are free to write
their own loaders for loading other types of data.
There is only one
LoaderManager
per activity or fragment. But a
LoaderManager
can have
multiple loaders.
|
LoaderManager.LoaderCallbacks
|
A callback interface for a client to interact with the
LoaderManager
. For example, you use the
onCreateLoader()
callback method to create a new loader.
|
Loader
|
An abstract class that performs asynchronous loading of data. This is
the base class for a loader. You would typically use
CursorLoader
, but you can implement your own subclass. While
loaders are active they should monitor the source of their data and deliver new
results when the contents change.
|
AsyncTaskLoader
|
Abstract loader that provides an
AsyncTask
to do the work.
|
CursorLoader
|
A subclass of
AsyncTaskLoader
that queries the
ContentResolver
and returns a
Cursor
. This class implements the
Loader
protocol in a standard way for querying cursors,
building on
AsyncTaskLoader
to perform the cursor query
on a background thread so that it does not block the application's UI. Using
this loader is the best way to asynchronously load data from a
ContentProvider
, instead of performing a managed query through
the fragment or activity's APIs.
|
The classes and interfaces in the above table are the essential components
you'll use to implement a loader in your application. You won't need all of them
for each loader you create, but you'll always need a reference to the
LoaderManager
in order to initialize a loader and an implementation
of a
Loader
class such as
CursorLoader
. The following sections show you how to use these
classes and interfaces in an application.
Using Loaders in an Application
This section describes how to use loaders in an Android application. An application that uses loaders typically includes the following:
-
An
Activity
orFragment
. -
An instance of the
LoaderManager
. -
A
CursorLoader
to load data backed by aContentProvider
. Alternatively, you can implement your own subclass ofLoader
orAsyncTaskLoader
to load data from some other source. -
An implementation for
LoaderManager.LoaderCallbacks
. This is where you create new loaders and manage your references to existing loaders. -
A way of displaying the loader's data, such as a
SimpleCursorAdapter
. -
A data source, such as a
ContentProvider
, when using aCursorLoader
.
Starting a Loader
The
LoaderManager
manages one or more
Loader
instances within an
Activity
or
Fragment
. There is only one
LoaderManager
per activity or fragment.
You typically
initialize a
Loader
within the activity's
onCreate()
method, or within the fragment's
onActivityCreated()
method. You
do this as follows:
// Prepare the loader. Either re-connect with an existing one, // or start a new one. getLoaderManager().initLoader(0, null, this);
The
method takes
the following parameters:
- A unique ID that identifies the loader. In this example, the ID is 0.
-
Optional arguments to supply to the loader at
construction (
null
in this example). -
A
LoaderManager.LoaderCallbacks
implementation, which theLoaderManager
calls to report loader events. In this example, the local class implements theLoaderManager.LoaderCallbacks
interface, so it passes a reference to itself,this
.
The
call ensures that a loader
is initialized and active. It has two possible outcomes:
- If the loader specified by the ID already exists, the last created loader is reused.
-
If the loader specified by the ID does
not
exist,
)">initLoader() LoaderManager.LoaderCallbacks
methodonCreateLoader()
. This is where you implement the code to instantiate and return a new loader. For more discussion, see the section onCreateLoader .
In either case, the given
LoaderManager.LoaderCallbacks
implementation is associated with the loader, and will be called when the
loader state changes. If at the point of this call the caller is in its
started state, and the requested loader already exists and has generated its
data, then the system calls
immediately (during
),
so you must be prepared for this to happen. See
onLoadFinished
for more discussion of this callback
Note that the
method returns the
Loader
that is created, but you don't
need to capture a reference to it. The
LoaderManager
manages
the life of the loader automatically. The
LoaderManager
starts and stops loading when necessary, and maintains the state of the loader
and its associated content. As this implies, you rarely interact with loaders
directly (though for an example of using loader methods to fine-tune a loader's
behavior, see the
LoaderThrottle
sample).
You most commonly use the
LoaderManager.LoaderCallbacks
methods to intervene in the loading
process when particular events occur. For more discussion of this topic, see
Using the LoaderManager Callbacks
.
Restarting a Loader
When you use
, as
shown above, it uses an existing loader with the specified ID if there is one.
If there isn't, it creates one. But sometimes you want to discard your old data
and start over.
To discard your old data, you use
. For example, this
implementation of
SearchView.OnQueryTextListener
restarts
the loader when the user's query changes. The loader needs to be restarted so
that it can use the revised search filter to do a new query:
public boolean onQueryTextChanged(String newText) { // Called when the action bar search text has changed. Update // the search filter, and restart the loader to do a new query // with this filter. mCurFilter = !TextUtils.isEmpty(newText) ? newText : null; getLoaderManager().restartLoader(0, null, this); return true; }
Using the LoaderManager Callbacks
LoaderManager.LoaderCallbacks
is a callback interface
that lets a client interact with the
LoaderManager
.
Loaders, in particular
CursorLoader
, are expected to
retain their data after being stopped. This allows applications to keep their
data across the activity or fragment's
onStop()
and
onStart()
methods, so that
when users return to an application, they don't have to wait for the data to
reload. You use the
LoaderManager.LoaderCallbacks
methods
when to know when to create a new loader, and to tell the application when it is
time to stop using a loader's data.
LoaderManager.LoaderCallbacks
includes these
methods:
-
onCreateLoader()
— Instantiate and return a newLoader
for the given ID.
-
, D)">onLoadFinished()
-
)">onLoaderReset()
These methods are described in more detail in the following sections.
onCreateLoader
When you attempt to access a loader (for example, through
), it checks to see whether
the loader specified by the ID exists. If it doesn't, it triggers the
LoaderManager.LoaderCallbacks
method
onCreateLoader()
. This
is where you create a new loader. Typically this will be a
CursorLoader
, but you can implement your own
Loader
subclass.
In this example, the
onCreateLoader()
callback method creates a
CursorLoader
. You must build
the
CursorLoader
using its constructor method, which
requires the complete set of information needed to perform a query to the
ContentProvider
. Specifically, it needs:
- uri — The URI for the content to retrieve.
-
projection
— A list of which columns to return. Passing
null
will return all columns, which is inefficient. -
selection
— A filter declaring which rows to return,
formatted as an SQL WHERE clause (excluding the WHERE itself). Passing
null
will return all rows for the given URI. - selectionArgs — You may include ?s in the selection, which will be replaced by the values from selectionArgs , in the order that they appear in the selection. The values will be bound as Strings.
-
sortOrder
— How to order the rows, formatted as an SQL
ORDER BY clause (excluding the ORDER BY itself). Passing
null
will use the default sort order, which may be unordered.
For example:
// If non-null, this is the current filter the user has provided. String mCurFilter; ... public Loader<Cursor> onCreateLoader(int id, Bundle args) { // This is called when a new Loader needs to be created. This // sample only has one Loader, so we don't care about the ID. // First, pick the base URI to use depending on whether we are // currently filtering. Uri baseUri; if (mCurFilter != null) { baseUri = Uri.withAppendedPath(Contacts.CONTENT_FILTER_URI, Uri.encode(mCurFilter)); } else { baseUri = Contacts.CONTENT_URI; } // Now create and return a CursorLoader that will take care of // creating a Cursor for the data being displayed. String select = "((" + Contacts.DISPLAY_NAME + " NOTNULL) AND (" + Contacts.HAS_PHONE_NUMBER + "=1) AND (" + Contacts.DISPLAY_NAME + " != '' ))"; return new CursorLoader(getActivity(), baseUri, CONTACTS_SUMMARY_PROJECTION, select, null, Contacts.DISPLAY_NAME + " COLLATE LOCALIZED ASC"); }
onLoadFinished
This method is called when a previously created loader has finished its load. This method is guaranteed to be called prior to the release of the last data that was supplied for this loader. At this point you should remove all use of the old data (since it will be released soon), but should not do your own release of the data since its loader owns it and will take care of that.
The loader will release the data once it knows the application is no longer
using it. For example, if the data is a cursor from a
CursorLoader
, you should not call
close()
on it yourself. If the cursor is being
placed in a
CursorAdapter
, you should use the
swapCursor()
method so that the
old
Cursor
is not closed. For example:
// This is the Adapter being used to display the list's data.
SimpleCursorAdapter mAdapter; ... public void onLoadFinished(Loader<Cursor> loader, Cursor data) { // Swap the new cursor in. (The framework will take care of closing the // old cursor once we return.) mAdapter.swapCursor(data); }
onLoaderReset
This method is called when a previously created loader is being reset, thus making its data unavailable. This callback lets you find out when the data is about to be released so you can remove your reference to it.
This implementation calls
swapCursor()
with a value of
null
:
// This is the Adapter being used to display the list's data. SimpleCursorAdapter mAdapter; ... public void onLoaderReset(Loader<Cursor> loader) { // This is called when the last Cursor provided to onLoadFinished() // above is about to be closed. We need to make sure we are no // longer using it. mAdapter.swapCursor(null); }
Example
As an example, here is the full implementation of a
Fragment
that displays a
ListView
containing
the results of a query against the contacts content provider. It uses a
CursorLoader
to manage the query on the provider.
For an application to access a user's contacts, as shown in this example, its
manifest must include the permission
READ_CONTACTS
.
public static class CursorLoaderListFragment extends ListFragment implements OnQueryTextListener, LoaderManager.LoaderCallbacks<Cursor> { // This is the Adapter being used to display the list's data. SimpleCursorAdapter mAdapter; // If non-null, this is the current filter the user has provided. String mCurFilter; @Override public void onActivityCreated(Bundle savedInstanceState) { super.onActivityCreated(savedInstanceState); // Give some text to display if there is no data. In a real // application this would come from a resource. setEmptyText("No phone numbers"); // We have a menu item to show in action bar. setHasOptionsMenu(true); // Create an empty adapter we will use to display the loaded data. mAdapter = new SimpleCursorAdapter(getActivity(), android.R.layout.simple_list_item_2, null, new String[] { Contacts.DISPLAY_NAME, Contacts.CONTACT_STATUS }, new int[] { android.R.id.text1, android.R.id.text2 }, 0); setListAdapter(mAdapter); // Prepare the loader. Either re-connect with an existing one, // or start a new one. getLoaderManager().initLoader(0, null, this); } @Override public void onCreateOptionsMenu(Menu menu, MenuInflater inflater) { // Place an action bar item for searching. MenuItem item = menu.add("Search"); item.setIcon(android.R.drawable.ic_menu_search); item.setShowAsAction(MenuItem.SHOW_AS_ACTION_IF_ROOM); SearchView sv = new SearchView(getActivity()); sv.setOnQueryTextListener(this); item.setActionView(sv); } public boolean onQueryTextChange(String newText) { // Called when the action bar search text has changed. Update // the search filter, and restart the loader to do a new query // with this filter. mCurFilter = !TextUtils.isEmpty(newText) ? newText : null; getLoaderManager().restartLoader(0, null, this); return true; } @Override public boolean onQueryTextSubmit(String query) { // Don't care about this. return true; } @Override public void onListItemClick(ListView l, View v, int position, long id) { // Insert desired behavior here. Log.i("FragmentComplexList", "Item clicked: " + id); } // These are the Contacts rows that we will retrieve. static final String[] CONTACTS_SUMMARY_PROJECTION = new String[] { Contacts._ID, Contacts.DISPLAY_NAME, Contacts.CONTACT_STATUS, Contacts.CONTACT_PRESENCE, Contacts.PHOTO_ID, Contacts.LOOKUP_KEY, }; public Loader<Cursor> onCreateLoader(int id, Bundle args) { // This is called when a new Loader needs to be created. This // sample only has one Loader, so we don't care about the ID. // First, pick the base URI to use depending on whether we are // currently filtering. Uri baseUri; if (mCurFilter != null) { baseUri = Uri.withAppendedPath(Contacts.CONTENT_FILTER_URI, Uri.encode(mCurFilter)); } else { baseUri = Contacts.CONTENT_URI; } // Now create and return a CursorLoader that will take care of // creating a Cursor for the data being displayed. String select = "((" + Contacts.DISPLAY_NAME + " NOTNULL) AND (" + Contacts.HAS_PHONE_NUMBER + "=1) AND (" + Contacts.DISPLAY_NAME + " != '' ))"; return new CursorLoader(getActivity(), baseUri, CONTACTS_SUMMARY_PROJECTION, select, null, Contacts.DISPLAY_NAME + " COLLATE LOCALIZED ASC"); } public void onLoadFinished(Loader<Cursor> loader, Cursor data) { // Swap the new cursor in. (The framework will take care of closing the // old cursor once we return.) mAdapter.swapCursor(data); } public void onLoaderReset(Loader<Cursor> loader) { // This is called when the last Cursor provided to onLoadFinished() // above is about to be closed. We need to make sure we are no // longer using it. mAdapter.swapCursor(null); } }
More Examples
There are a few different samples in ApiDemos that illustrate how to use loaders:
- LoaderCursor — A complete version of the snippet shown above.
- LoaderThrottle — An example of how to use throttling to reduce the number of queries a content provider does when its data changes.
For information on downloading and installing the SDK samples, see Getting the Samples .