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I have a custom CursorAdapter that is using multiple AsyncTasks in its bindView method to load images into a grid.

When bindView runs my AsyncTasks get launched multiple times. This has the effect of pushing up my heap size and can cause Out of Memory errors.

What is the best approach to take, to get AsyncTasks to run just once?

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Use a Loader, as described here. –  Alex Lockwood Apr 24 '13 at 18:02
@AlexLockwood So if I use a loader as you suggest, this loader will only get kicked off once? Unlike and AsyncTask? –  Haraldo Apr 24 '13 at 22:25
What data is your AsyncTask fetching...? A Cursor? Or something else? –  Alex Lockwood Apr 24 '13 at 22:53
If you are attempting to fetch a Cursor within each call to bindView, that would be very, very inefficient. You should query for the entire Cursor beforehand and only once you have the Cursor containing all of your data should you bind it to the CursorAdapter (using mAdapter.swapCursor(cursor), for example). –  Alex Lockwood Apr 24 '13 at 22:55
@AlexLockwood No no, the cursor is handed to me in bindView. See: public void bindView(View view, final Context context, Cursor cursor) {. The mesthod is part of my custom CursorAdapter. –  Haraldo Apr 25 '13 at 0:12
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2 Answers

You can cache the results of the Asynctask. There is a very useful project on Github you might want to look into.https://github.com/nostra13/Android-Universal-Image-Loader

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The trouble is, in a matter of milliseconds bindView can be called multiple times. The result of the AsyncTask has not yet been returned by the time the next AsyncTask gets kicked off. –  Haraldo Apr 24 '13 at 19:51
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I think you are looking for AsyncTaskLoader or its support package implementation. It handles everything for you.

An example of how to use it:

public SampleLoader extends AsyncTaskLoader<List<SampleItem>> {

  // We hold a reference to the Loader’s data here.
  private List<SampleItem> mData;

  public SampleLoader(Context ctx) {
    // Loaders may be used across multiple Activitys (assuming they aren't
    // bound to the LoaderManager), so NEVER hold a reference to the context
    // directly. Doing so will cause you to leak an entire Activity's context.
    // The superclass constructor will store a reference to the Application
    // Context instead, and can be retrieved with a call to getContext().

  /** (1) A task that performs the asynchronous load **/

  public List<SampleItem> loadInBackground() {
    // This method is called on a background thread and should generate a
    // new set of data to be delivered back to the client.
    List<SampleItem> data = new ArrayList<SampleItem>();

    // TODO: Perform the query here and add the results to 'data'.

    return data;

  /** (2) Deliver the results to the registered listener **/

  public void deliverResult(List<SampleItem> data) {
    if (isReset()) {
      // The Loader has been reset; ignore the result and invalidate the data.

    // Hold a reference to the old data so it doesn't get garbag ecollected.
    // We must protect it until the new data has been delivered.
    List<SampleItem> oldData = mData;
    mData = data;

    if (isStarted()) {
      // If the Loader is in a started state, deliver the results to the
      // client. The superclass method does this for us.

    // Invalidate the old data as we don't need it any more.
    if (oldData != null && oldData != data) {

  /** (3) Implement the Loader’s state-dependent behavior **/

  protected void onStartLoading() {
    if (mData != null) {
      // Deliver any previously loaded data immediately.

    // Begin monitoring the underlying data source.
    if (mObserver == null) {
      mObserver = new SampleObserver();
      // TODO: register the observer

    if (takeContentChanged() || mData == null) {
      // When the observer detects a change, it should call onContentChanged()
      // on the Loader, which will cause the next call to takeContentChanged()
      // to return true. If this is ever the case (or if the current data is
      // null), we force a new load.

  protected void onStopLoading() {
    // The Loader is in a stopped state, so we should attempt to cancel the
    // current load (if there is one).

    // Note that we leave the observer as is. Loaders in a stopped state
    // should still monitor the data source for changes so that the Loader
    // will know to force a new load if it is ever started again.

  protected void onReset() {
    // Ensure the loader has been stopped.

    // At this point we can release the resources associated with 'mData'.
    if (mData != null) {
      mData = null;

    // The Loader is being reset, so we should stop monitoring for changes.
    if (mObserver != null) {
      // TODO: unregister the observer
      mObserver = null;

  public void onCanceled(List<SampleItem> data) {
    // Attempt to cancel the current asynchronous load.

    // The load has been canceled, so we should release the resources
    // associated with 'data'.

  private void releaseResources(List<SampleItem> data) {
    // For a simple List, there is nothing to do. For something like a Cursor, we
    // would close it in this method. All resources associated with the Loader
    // should be released here.

  /** (4) Observer which receives notifications when the data changes **/

  // NOTE: Implementing an observer is outside the scope of this post (this example
  // uses a made-up "SampleObserver" to illustrate when/where the observer should
  // be initialized).

  // The observer could be anything so long as it is able to detect content changes
  // and report them to the loader with a call to onContentChanged(). For example,
  // if you were writing a Loader which loads a list of all installed applications
  // on the device, the observer could be a BroadcastReceiver that listens for the
  // ACTION_PACKAGE_ADDED intent, and calls onContentChanged() on the particular
  // Loader whenever the receiver detects that a new application has been installed.
  // Please don’t hesitate to leave a comment if you still find this confusing! :)
  private SampleObserver mObserver;

The source: androiddesignpatterns.com - Implementing Loaders (part 3)

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Note that if the OP's application uses a ContentProvider, then he'd most likely be better off just using a CursorLoader instead of creating his own subclass of AsyncTaskLoader. –  Alex Lockwood Apr 24 '13 at 22:50
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