Let's say I call a method like this:

  getMethodParam1(arg1, arg2),
  getMethodParam2(arg2, arg3),
  getMethodParam3(arg3, arg4)

Will calls to getMethodParam1, getMethodParam2 and getMethodParam3 be called asynchronously by Java or not?


Java will never do anything asynchronously if you don't tell it to do so.

And assuming that there is a method like myBigMethod(a, b, c) it is going to evaluate each parameter first before it can pass the result to the method. From left to right.

So your example is equivalent to:

a = getMethodParam1(arg1, arg2);
b = getMethodParam2(arg2, arg3);
c = getMethodParam2(arg3, arg4);
myBigMethod(a, b, c);

No, JVM will call getMethodParam's methods one by one. If you want call these methods in parallel you shoud do it by yourself


If you are implying something like Haskell's non-strict evaluation semantics, then rest assured that Java, just like any other major programming language, has strict semantics and arguments are passed by value only, which means that the values must be calculated first.

If your question is possibly about whether Java guarantees order of argument evaluation, then the answer is Yes, the expressions will always be evaluated from left to right.


Java will evaluate the arguments before the method is called. So in your case, getMethodParam1/2/3 will be evaluated before myBigMethod is called.


First of all you can simply check it with a test and a big for loop. Or even debug, you'll see that methods are called one by one. Think yourself, it could be very dangerous if JVM make such decisions by itself.


If it is desired to run a set of method calls or code blocks asynchronously, the AsynHelper library includes an useful helper method AsyncTask.submitTasks as in below snippet.

    () -> getMethodParam1(arg1, arg2),
    () -> getMethodParam2(arg2, arg3)
    () -> getMethodParam3(arg3, arg4),
    () -> {
             //Some other code to run asynchronously

If it is desired to wait till all asynchronous codes are completed running, the AsyncTask.submitTasksAndWait varient can be used.

Also if it is desired to obtain a return value from each of the asynchronous method call or code block, the AsyncSupplier.submitSuppliers can be used so that the result can be then obtained by from the result suppliers array returned by the method. Below is the sample snippet:

Supplier<Object>[] resultSuppliers = 
     () -> getMethodParam1(arg1, arg2),
     () -> getMethodParam2(arg3, arg4),
     () -> getMethodParam3(arg5, arg6)

Object a = resultSuppliers[0].get();
Object b = resultSuppliers[1].get();
Object c = resultSuppliers[2].get();

These result can be then passed to the myBigMethod as below as per your use case


If the return type of each method differ, use the below kind of snippet.

Supplier<String> aResultSupplier = AsyncSupplier.submitSupplier(() -> getMethodParam1(arg1, arg2));
Supplier<Integer> bResultSupplier = AsyncSupplier.submitSupplier(() -> getMethodParam2(arg3, arg4));
Supplier<Object> cResultSupplier = AsyncSupplier.submitSupplier(() -> getMethodParam3(arg5, arg6));

myBigMethod(aResultSupplier.get(), bResultSupplier.get(), cResultSupplier.get());

The result of the asynchronous method calls/code blocks can also be obtained at a different point of code in the same thread or a different thread as in the below snippet.

AsyncSupplier.submitSupplierForSingleAccess(() -> getMethodParam1(arg1, arg2), "a");
AsyncSupplier.submitSupplierForSingleAccess(() -> getMethodParam2(arg3, arg4), "b");
AsyncSupplier.submitSupplierForSingleAccess(() -> getMethodParam3(arg5, arg6), "c");

//Following can be in the same thread or a different thread
Optional<String> aResult = AsyncSupplier.waitAndGetFromSupplier(String.class, "a");
Optional<Integer> bResult = AsyncSupplier.waitAndGetFromSupplier(Integer.class, "b");
Optional<Object> cResult = AsyncSupplier.waitAndGetFromSupplier(Object.class, "c");


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