ExecuteAsync(ACompletionHandler: TCompletionHandler = nil; ASynchronized: boolean = true; AFreeThread: boolean = true) method is indeed the way to go. As the name implies, it is asynchronous; meaning your program remains responsive after firing the request, or even after firing several requests.
However, it is important that you fire these different requests from different object instances; if you fire an
ExecuteAsync from a
TRESTRequest instance that is already performing an
ExecuteAsync, the new request will get in the way of the existing request. You must create a separate
TRESTRequest instance for each parallel call.
Note that its first parameter is a procedure; you pass a procedure of your choice as that parameter. The only requirement is that the procedure has the right signature; in this case, that it is a procedure that has no parameters.
The ExecuteAsync method is defined in
REST.Client. (I've got Delphi XE-10.1. Berlin so it has one extra parameter,
ACompletionHandlerWithError - which is called on error. The principle remains the same though).
Let's have a look:
function TCustomRESTRequest.ExecuteAsync(ACompletionHandler: TCompletionHandler = nil; ASynchronized: boolean = true;
AFreeThread: boolean = true; ACompletionHandlerWithError: TCompletionHandlerWithError = nil): TRESTExecutionThread;
Result := TRESTExecutionThread.Create(Execute, self, ACompletionHandler, ASynchronized, AFreeThread, ACompletionHandlerWithError);
What happens here is that a new thread is created in which the REST Request is executed. If the response comes in, it is handled by
ACompletionHandler runs on the new thread created by
ExecuteAsync. If you want it to run on the main thread, you should set
But how do you get access to that response, and make it accessible to the rest of your program?
FireMonkey's TRESTRequest class has a property
Response, that refers to the TRESTResponse object that contains the server's response to our request.
Unfortunately, neither the TRESTRequest nor the TRESTResponse object are passed to our CompletionHandler!
So we need to somehow give the CompletionHandler this information. Fortunately, we can use a method as a CompletionHandler.
Let's assume that the class that is going to process the resulting data is called
DataOwner. Our purpose is that
DataOwner has access to the TRESTResponse instance associated with our TRESTRequest instance.
The easiest way to do this is to make TRESTRequest and/or TRESTResponse a member of
Assume your request was fired from a TRESTRequest instance named
MyRESTRequest and processed by a function
processResponse, you would use the following code:
type TDataOwner = class
// ... initialize MyRESTRequest here...
MyData := processResponse(MyRESTRequest.Response);
If you want to fire several requests in parallel, you need to use this pattern several times. It is unfortunate that we don't have direct access to the TRESTRequest instance or TRESTResponse instance in our Completion Handlers, because this means we have to do the bookkeeping ourselves. In other words, it is up to the programmer to make sure that the Completion Handler processes the right Response object.