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I'm developing an Android app which has a lot of different requests for web services. Every request is done in a subclass of AsyncTask in this manner:

(new AsyncTask<String, Void, Object1>() {
    protected Object1 doInBackground(String... params) {
        // network request and parsing to Object1
        Object1 obj = new Object1();
        obj1 = Parser.parseObject1(httpClient.execute(...));
        return obj1;

    protected Object1 onPostExecute(Object1... ret) {
        return ret[0];

Object1 is a placeholder for different objects (Car, Bicycle, Truck...), each one in a different AsyncTask.

What are my alternatives other than returning the output of httpClient in a String and parsing in the Main Thread (UI Thread)? Avoid parsing in the UI Thread sounds reasonable if it's going to parse a lot of data, am I right?

-= UPDATE =-

Let me rephrase the question: I'm asking for a more intelligent way to develop my application avoiding being repetitive (AsyncTask has a lot of boilerplate code). The way I did was by creating 20+ subclasses of AsyncTask, which clearly is not DRY (do not repeat yourself).

In iOS we have lambda expressions so callbacks done in web requests are very easy and succinct.

share|improve this question
I'm not sure exactly what your question is -- but on your last point, yes you should avoid parsing on the UI thread if it all possible, especially if you are going to spinning up a thread for the HTTP call it would make sense to do the parsing on this thread. – Joseph Earl Feb 5 '14 at 22:58
You don't have to write that full code each time. AsyncTask is a class that can be extended or used in other ways. – zapl Feb 6 '14 at 1:21
@JosephEarl I want to know a simpler way avoid those repetitive code that AsyncTask requires. I create a class for each subclassed type of AsyncTask, but in my project I have 20+ classes of AsyncTask. Is it normal? – user2129147 Feb 6 '14 at 13:29
@zapl I rephrased my question. Please take a look again. I appreciate – user2129147 Feb 6 '14 at 13:51
If your usecase are HTTP calls I'd suggest you use a library that did the complicated class / API design to reduce duplication for you too. You can write your own wrappers around asynctask, (E.g. CursorLoader is based on AsyncTask and has a completely different way you use it) but it is a lot of work. You could try create an abstract class with just Object1 as generic parameter and get less boilerplate that way. Or pass in a strategy pattern like object that handles those things in a generic way. – zapl Feb 7 '14 at 18:42
up vote 2 down vote accepted

You can create classes that contain most of your boilerplate code. E.g.

public class SpecialAsyncTask<T> extends AsyncTask<String, Void, T> {

    public interface ResultProvider<T> {
        T generateResultInBackground(String... params);

    public interface ResultConsumer<T> {
        void handleResultInForeground(T result);

    private final ResultProvider<T> mProvider;
    private final ResultConsumer<T> mConsumer;
    private SpecialAsyncTask(ResultProvider<T> provider, ResultConsumer<T> consumer) {
        mProvider = provider;
        mConsumer = consumer;

    protected T doInBackground(String... params) {
        return mProvider.generateResultInBackground(params);

    protected void onPostExecute(T result) {

    public static <T> void execute(ResultProvider<T> provider, ResultConsumer<T> consumer, String... params) {
        new SpecialAsyncTask<T>(provider, consumer).execute(params);

is an example how you could keep Object1 as a generic parameter while being able to specify an object that only needs to implement an interface to handle code that would otherwise have to be inside a new AsyncTask instance.

With a schema like that you could for example define some common code as static content:

class Providers {
    public static final ResultProvider<String> HTTP_GETTER = new ResultProvider<String>() {

        public String generateResultInBackground(String... params) {
            return MagicHttpLibrary.getContentAsString(params[0]);


And you can just use Providers.HTTP_GETTER as parameter instead of implementing doInBackground. Or create a new class hierarchy of that implement one of those interfaces with different methods to access them (like factories for example)

Use of above example would look for example like below

class User extends Activity implements ResultConsumer<String> {

    protected void onCreate(Bundle savedInstanceState) {
        SpecialAsyncTask.execute(Providers.HTTP_GETTER, this , "");
        SpecialAsyncTask.execute(Providers.HTTP_GETTER, this , "");

    public void handleResultInForeground(String result) {
        Toast.makeText(this, result, Toast.LENGTH_LONG).show();

and there is more or less no repeated code besides the different method calls. It depends on how you want to use a class and what actually changes in the code to know how to design something like that. Identify the parts that need to be parametrized and move code that repeats into a re-used place (inheritance / composition).

share|improve this answer
Really good answer! Thank you zapl! – user2129147 Feb 19 '14 at 14:16

Google's Volley HTTP request library does the request and parsing both in the same worker thread. So, that's a pretty good example to code by.

share|improve this answer
I'm sorry but I don't see the need to use Google's Volley. I'm just asking an optimized and DRY way of creating different web requests with different callbacks without creating a lot of subclasses of AsyncTasks – user2129147 Feb 6 '14 at 13:34

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